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Friday, August 26, 2022

Emotion and memory

From Wikipedia, the free encyclopedia

Emotion can have a powerful effect on humans and animals. Numerous studies have shown that the most vivid autobiographical memories tend to be of emotional events, which are likely to be recalled more often and with more clarity and detail than neutral events.

The activity of emotionally enhanced memory retention can be linked to human evolution; during early development, responsive behavior to environmental events would have progressed as a process of trial and error. Survival depended on behavioral patterns that were repeated or reinforced through life and death situations. Through evolution, this process of learning became genetically embedded in humans and all animal species in what is known as flight or fight instinct.

Artificially inducing this instinct through traumatic physical or emotional stimuli essentially creates the same physiological condition that heightens memory retention by exciting neuro-chemical activity affecting areas of the brain responsible for encoding and recalling memory. This memory-enhancing effect of emotion has been demonstrated in many laboratory studies, using stimuli ranging from words to pictures to narrated slide shows, as well as autobiographical memory studies. However, as described below, emotion does not always enhance memory.

Arousal and valence in memory

One of the most common frameworks in the emotions field proposes that affective experiences are best characterized by two main dimensions: arousal and valence. The dimension of valence ranges from highly positive to highly negative, whereas the dimension of arousal ranges from calming or soothing to exciting or agitating.

The majority of studies to date have focused on the arousal dimension of emotion as the critical factor contributing to the emotional enhancement effect on memory. Different explanations have been offered for this effect, according to the different stages of memory formation and reconstruction.

However, a growing body of research is dedicated to the emotional valence dimension and its effects on memory. It has been claimed that this is an essential step towards a more complete understanding of emotion effects on memory. The studies that did investigate this dimension have found that emotional valence alone can enhance memory; that is, nonarousing items with positive or negative valence can be better remembered than neutral items.

Emotion and encoding

From an information processing perspective, encoding refers to the process of interpreting incoming stimuli and combining the processed information. At the encoding level the following mechanisms have been suggested as mediators of emotion effects on memory:

Selectivity of attention

Easterbrook's (1959) cue utilization theory predicted that high levels of arousal will lead to attention narrowing, defined as a decrease in the range of cues from the stimulus and its environment to which the organism is sensitive. According to this hypothesis, attention will be focused primarily on the arousing details (cues) of the stimulus, so that information central to the source of the emotional arousal will be encoded while peripheral details will not.

Accordingly, several studies have demonstrated that the presentation of emotionally arousing stimuli (compared to neutral stimuli) results in enhanced memory for central details (details central to the appearance or meaning of the emotional stimuli) and impaired memory for peripheral details. Also consistent with this hypothesis are findings of weapon focus effect, in which witnesses to a crime remember the gun or knife in great detail but not other details such as the perpetrator's clothing or vehicle. In laboratory replications it was found that participants spend a disproportionate amount of time looking at a weapon in a scene, and this looking time is inversely related to the likelihood that individuals will subsequently identify the perpetrator of the crime. Other researchers have suggested arousal may also increase the duration of attentional focusing on the arousing stimuli, thus delaying the disengagement of attention from it. Ochsner (2000) summarized the different findings and suggested that by influencing attention selectivity and dwell time, arousing stimuli are more distinctively encoded, resulting in more accurate memory of those stimuli.

While these previous studies focused on how emotion affects memory for emotionally arousing stimuli, in their arousal-biased competition theory, Mather and Sutherland (2011) argue that how arousal influences memory for non-emotional stimuli depends on the priority of those stimuli at the time of the arousal. Arousal enhances perception and memory of high priority stimuli but impairs perception and memory of low priority stimuli. Priority can be determined by bottom-up salience or by top-down goals.

Prioritized processing

Emotional items also appear more likely to be processed when attention is limited, suggesting a facilitated or prioritized processing of emotional information. This effect was demonstrated using the attentional blink paradigm in which 2 target items are presented in close temporal proximity within a stream of rapidly presented stimuli.

The typical finding is that participants often miss the second target item, as if there were a "blink" of attention following the first target's presentation, reducing the likelihood that the second target stimulus is attended. However, when the second target stimulus elicits emotional arousal (a "taboo" word), participants are less likely to miss the target's presentation, which suggests that under conditions of limited attention, arousing items are more likely to be processed than neutral items.

Additional support for the prioritized processing hypothesis was provided by studies investigating the visual extinction deficit. People suffering from this deficit can perceive a single stimulus in either side visual field if it is presented alone but are unaware of the same stimulus in the visual field opposed to the lesional side, if another stimulus is presented simultaneously on the lesional side.

Emotion has been found to modulate the magnitude of the visual extinction deficit, so that items that signal emotional relevance (e.g., spiders) are more likely to be processed in the presence of competing distractors than nonemotional items (e.g., flowers).

Emotion and storage

In addition to its effects during the encoding phase, emotional arousal appears to increase the likelihood of memory consolidation during the retention (storage) stage of memory (the process of creating a permanent record of the encoded information). A number of studies show that over time, memories for neutral stimuli decrease but memories for arousing stimuli remain the same or improve.

Others have discovered that memory enhancements for emotional information tend to be greater after longer delays than after relatively short ones. This delayed effect is consistent with the proposal that emotionally arousing memories are more likely to be converted into a relatively permanent trace, whereas memories for nonarousing events are more vulnerable to disruption.

A few studies have even found that emotionally arousing stimuli enhance memory only after a delay. The most famous of these was a study by Kleinsmith and Kaplan (1963) that found an advantage for numbers paired with arousing words over those paired with neutral words only at delayed test, but not at immediate test. As outlined by Mather (2007), the Kleinsmith and Kaplan effects were most likely due to a methodological confound. However, Sharot and Phelps (2004) found better recognition of arousing words over neutral words at a delayed test but not at an immediate test, supporting the notion that there is enhanced memory consolidation for arousing stimuli. According to these theories, different physiological systems, including those involved in the discharge of hormones believed to affect memory consolidation, become active during, and closely following, the occurrence of arousing events.

Another possible explanation for the findings of the emotional arousal delayed effect is post-event processing regarding the cause of the arousal. According to the post stimulus elaboration (PSE) hypothesis, an arousing emotional experience may cause more effort to be invested in elaboration of the experience, which would subsequently be processed at a deeper level than a neutral experience. Elaboration refers to the process of establishing links between newly encountered information and previously stored information.

It has long been known that when individuals process items in an elaborative fashion, such that meaning is extracted from items and inter-item associations are formed, memory is enhanced. Thus, if a person gives more thought to central details in an arousing event, memory for such information is likely to be enhanced. However, these processes could also disrupt consolidation of memories for peripheral details. Christianson (1992) suggested that the combined action of perceptual, attentional, and elaborative processing, triggered by an emotionally arousing experience, produces memory enhancements of details related to the emotion laden stimulus, at the cost of less elaboration and consolidation of memory for the peripheral details.

Emotion and elaboration

The processes involved in this enhancement may be distinct from those mediating the enhanced memory for arousing items. It has been suggested that in contrast to the relatively automatic attentional modulation of memory for arousing information, memory for non-arousing positive or negative stimuli may benefit instead from conscious encoding strategies, such as elaboration. This elaborative processing can be autobiographical or semantic.

Autobiographical elaboration is known to benefit memory by creating links between the processed stimuli, and the self, for example, deciding whether a word would describe the personal self. Memory formed through autobiographical elaboration is enhanced as compared to items processed for meaning, but not in relation to the self.

Since words such as "sorrow" or "comfort" may be more likely to be associated with autobiographical experiences or self-introspection than neutral words such as "shadow", autobiographical elaboration may explain the memory enhancement of non-arousing positive or negative items. Studies have shown that dividing attention at encoding decreases an individual's ability to utilize controlled encoding processes, such as autobiographical or semantic elaboration.

Thus, findings that participants' memory for negative non-arousing words suffers with divided attention, and that the memory advantage for negative, non-arousing words can be eliminated when participants encode items while simultaneously performing a secondary task, has supported the elaborative processing hypothesis as the mechanism responsible for memory enhancement for negative non-arousing words.

Emotion and retrieval

Retrieval is a process of reconstructing past experiences; this phenomenon of reconstruction is influenced by a number of different variables described below.

Trade-off between details

Kensinger argues there are two trade-offs: central/peripheral trade-off of details and a specific/general trade-off. Emotional memories may include increased emotional details often with the trade-off of excluding background information. Research has shown that this trade-off effect cannot be explained exclusively by overt attention (measured by eye-tracking directed to emotional items during encoding) (Steinmetz & Kensinger, 2013).

Contextual effects of emotion on memory

Contextual effects occur as a result of the degree of similarity between the encoding context and the retrieval context of an emotional dimension. The main findings are that the current mood we are in affects what is attended, encoded and ultimately retrieved, as reflected in two similar but subtly different effects: the mood congruence effect and mood-state dependent retrieval. Positive encoding contexts have been connected to activity in the right fusiform gyrus. Negative encoding contexts have been correlated to activity in the right amygdala (Lewis & Critchley, 2003). However, Lewis and Critchley (2003) claim that it is not clear whether involvement of the emotional system in encoding memory differs for positive or negative emotions, or whether moods at recall lead to activity in the corresponding positive or negative neural networks.

The mood congruence effect

The mood congruence effect refers to the tendency of individuals to retrieve information more easily when it has the same emotional content as their current emotional state. For instance, being in a depressed mood increases the tendency to remember negative events (Drace, 2013).

This effect has been demonstrated for explicit retrieval as well as implicit retrieval.

Mood-state dependent retrieval

Another documented phenomenon is the mood-state dependent retrieval, a type of context-dependent memory. The retrieval of information is more effective when the emotional state at the time of retrieval is similar to the emotional state at the time of encoding.

Thus, the probability of remembering an event can be enhanced by evoking the emotional state experienced during its initial processing. These two phenomena, the mood congruity effect, and mood-state dependent retrieval, are similar to the context effects which have been traditionally observed in memory research. It may also relate to the phenomena of state-dependent memory in neuropsychopharmacology.

When recalling a memory, if someone is recalling an event by themselves or within a group of people, the emotions that they remember may change as well recall of specific details. Individuals recall events with stronger negative emotions than when a group is recalling the same event. Collaborative recall, as it can be referred to, causes strong emotions to fade. Emotional tone changes as well, with a difference of individual or collaborative recall so much that an individual will keep the tone of what was previously felt, but the group will have a more neutral tone. For example, if someone is recalling the negative experience of taking a difficult exam, then they will talk in a negative tone. However, when the group is recalling taking the exam, they will most likely recount it in a positive tone as the negative emotions and tones fade. Detail recount is also something that changed based on the emotion state a person is in when they are remembering an event. If an event is being collaboratively recalled the specific detail count is higher than if an individual is doing it. Detail recall is also more accurate when someone is experiencing negative emotion; Xie and Zhang (2016) conducted a study in which participants saw a screen with five colors on it and when presented with the next screen were asked which color was missing. Those who were experiencing negative emotions were more precise than those in the positive and neutral conditions. Aside from emotional state, mental illness like depression relates to people's ability to recall specific details. Those who are depressed tend to overgeneralize their memories and are not able to remember as many specific details of any events as compared to those without depression.

Thematic vs. sudden appearance of emotional stimuli

A somewhat different contextual effect stemmed from the recently made distinction between thematical and sudden appearance of an emotionally arousing event, suggesting that the occurrence of memory impairments depends on the way the emotional stimuli are induced. Laney et al. (2003) argued that when arousal is induced thematically (i.e., not through the sudden appearance of a discrete shocking stimulus such as a weapon but rather through involvement in an unfolding event plot and empathy with the victim as his or her plight becomes increasingly apparent), memory enhancements of details central to the emotional stimulus need not come at the expense of memory impairment of peripheral details.

Laney et al. (2004) demonstrated this by using an audio narrative to give the presented slides either neutral or emotional meaning, instead of presenting shockingly salient visual stimuli. In one of the experiments, participants in both the neutral and emotional conditions viewed slides of a date scenario of a woman and man at a dinner date. The couple engaged in conversation, then, at the end of the evening, embraced. The event concluded with the man leaving and the woman phoning a friend.

The accompanying audio recording informed participants in the neutral condition that the date went reasonably well, while participants in the emotional condition heard that, as the evening wore on, the man displayed some increasingly unpleasant traits of a type that was derogatory to women, and the embrace at the end of the evening was described as an attempt to sexually assault the woman.

As expected, the results revealed that details central to the event were remembered more accurately when that event was emotional than when neutral, However, this was not at the expense of memory for peripheral (in this case, spatially peripheral or plot-irrelevant) details, which were also remembered more accurately when the event was emotional. Based on these findings it has been suggested that the dual enhancing and impairing effects on memory are not an inevitable consequence of emotional arousal.

Memory of felt emotion

Many researchers use self-report measures of felt emotion as a manipulation check. This raises an interesting question and a possible methodological weakness: are people always accurate when they recall how they felt in the past? Several findings suggest this is not the case. For instance, in a study of memory for emotions in supporters of former U.S. presidential candidate Ross Perot, supporters were asked to describe their initial emotional reactions after Perot's unexpected withdrawal in July 1992 and again after the presidential election that November.

Between the two assessment periods, the views of many supporters changed dramatically as Perot re-entered the race in October and received nearly a fifth of the popular vote. The results showed that supporters recalled their past emotions as having been more consistent with their current appraisals of Perot than they actually were.

Another study found that people's memories for how distressed they felt when they learned of the 9/11 terrorist attacks changed over time and moreover, were predicted by their current appraisals of the impact of the attacks (Levine et al., 2004). It appears that memories of past emotional responses are not always accurate, and can even be partially reconstructed based on their current appraisal of events.

Studies have shown that as episodic memory becomes less accessible over time, the reliance on semantic memory to remember past emotions increases. In one study Levine et al. (2009) primes of the cultural belief of women being more emotional than men had a greater effect on responses for older memories compared to new memories. The long-term recall of emotions was more in line with the primed opinions, showing that long-term recall of emotions was heavily influenced by current opinions.

Emotion regulation effects on memory

An interesting issue in the study of the emotion-memory relationship is whether our emotions are influenced by our behavioral reaction to them, and whether this reaction—in the form of expression or suppression of the emotion—might affect what we remember about an event. Researchers have begun to examine whether concealing feelings influences our ability to perform common cognitive tasks, such as forming memories, and found that the emotion regulation efforts do have cognitive consequences. In the seminal work on negative affect arousal and white noise, Seidner found support for the existence of a negative affect arousal mechanism through observations regarding the devaluation of speakers from other ethnic origins."

In a study of Richards and Gross (1999) and Tiwari (2013), participants viewed slides of injured men that produced increases in negative emotions, while information concerning each man was presented orally with his slide. The participants were assigned to either an expressive suppression group (where they were asked to refrain from showing emotion while watching the slides) or to a control group (where they were not given regulatory instructions at all). As predicted by the researchers, suppressors showed significantly worse performance on a memory test for the orally presented information.

In another study, it was investigated whether expressive suppression (i.e., keeping one's emotions subdued) comes with a cognitive price. They measured expressive suppression when it spontaneously occurred while watching a movie of surgeries. After the movie, memory was tested and was found to be worse with a higher usage of suppression. In a second study, another movie was shown of people arguing. Memory of the conversation was then measured. When gauging the magnitude of cognitive cost, expressive suppression was compared with self-distraction, which was described as simply not trying to think about something. It was concluded that experimentally-induced suppression was associated with worse memory.

There is evidence that emotion enhances memory but is more specific towards arousal and valence factors. To test this theory, arousal and valence were assessed for over 2,820 words. Both negative and positive stimuli were remembered higher than neutral stimuli. Arousal also did not predict recognition memory. In this study, the importance of stimulus controls and experimental designs in research memory was highlighted. Arousal-related activities when affiliated with heightened heart rate (HR) stimulate prediction of memory enhancement. It was hypothesized that tonic elevations in HR (meaning revitalization in HR) and phasic HR (meaning quick reaction) declaration to help the memory. Fifty-three men's heart rates were measured while looking at unpleasant, neutral, and pleasant pictures and their memory tested two days later. It was concluded that tonic elevations created more accurate memory recall.

Several related studies have reached similar results. It was demonstrated that the effects of expressive suppression on memory generalize to emotionally positive experiences and to socially relevant contexts.

One possible answer to the question "why does emotion suppression impair memory?" might lay in the self monitoring efforts invested in order to suppress emotion (thinking about the behavior one is trying to control). A recent study found heightened self- monitoring efforts among suppressors relative to control participants.

That is, suppressors were more likely to report thinking about their behavior and the need to control it during a conversation. Increases in self-monitoring predicted decreases in memory for what was said, that is, people who reported thinking a lot about controlling their behavior had particularly impoverished memories. However, additional research is needed to confirm whether self-monitoring actually exerts a causal effect on memory.

Emotion-induced forgetting

Emotionally arousing stimuli can lead to retrograde amnesia for preceding events and anterograde amnesia for subsequent events. This has been demonstrated in lab studies with lists of words or pictures, in which people show impaired memory for stimuli appearing before or after arousing stimuli.

Depression and memory

Memory recall tends to be congruent with one's current mood, with depressed people more likely to recall negative events from the past. In addition, depression is often associated with poor memory in general, as outlined here.

Dementia and emotional memory

Several studies have demonstrated emotional memory enhancement in Alzheimer's patients suggesting that emotional memory enhancement might be used in the daily management of Alzheimer's patients. One study found that objects are recalled significantly better in Alzheimer's patients if they were presented as birthday presents to AD patients.

Aging and emotional memory

The enhancing effects of emotional arousal on later memory recall tend to be maintained among older adults and the amygdala shows relatively less decline than many other brain regions. However, older adults also show somewhat of a shift towards favoring positive over negative information in memory, leading to a positivity effect.

Emotional memory and sleep

Emotional memory and sleep has been a well-researched association. Emotional memories are consolidated greater during sleep, rather than neutral memories. Studies have investigated high valence and arousing words, in comparison to neutral words. Sleep enhances the consolidation of the high valence and arousing words and therefore these are remembered more post-sleep. This concept has been demonstrated in many studies using a variety of media such as pictures, film clips, and words.

Memories of 'future relevance' are also consolidated greater during sleep. In a study by Wilhelm et al., 2011, memories of items that participants knew were needed for the future (for the testing session) were remembered more after sleep. Sleep consolidated these memories of future relevance to a greater extent. Memories that are emotionally significant and relevant for the future are therefore preferentially consolidated during sleep. This can translate to mean that memories that are more meaningful or valuable to a person are consolidated more.

The concept of emotional memory and sleep can be applied to real-life situations e.g. by developing more effective learning strategies. One could integrate the memorization of information that possesses high emotional significance (highly salient) with information that holds little emotional significance (low salience), prior to a period of sleep.

Molecule

From Wikipedia, the free encyclopedia
https://en.wikipedia.org/wiki/Molecule

Atomic force microscopy (AFM) image of a PTCDA molecule, in which the five six-carbon rings are visible.
 
A scanning tunneling microscopy image of pentacene molecules, which consist of linear chains of five carbon rings.
 
AFM image of 1,5,9-trioxo-13-azatriangulene and its chemical structure.

A molecule is a group of two or more atoms held together by attractive forces known as chemical bonds; depending on context, the term may or may not include ions which satisfy this criterion. In quantum physics, organic chemistry, and biochemistry, the distinction from ions is dropped and molecule is often used when referring to polyatomic ions.

A molecule may be homonuclear, that is, it consists of atoms of one chemical element, e.g. two atoms in the oxygen molecule (O2); or it may be heteronuclear, a chemical compound composed of more than one element, e.g. water (two hydrogen atoms and one oxygen atom; H2O). In the kinetic theory of gases, the term molecule is often used for any gaseous particle regardless of its composition. This relaxes the requirement that a molecule contains two or more atoms, since the noble gases are individual atoms. Atoms and complexes connected by non-covalent interactions, such as hydrogen bonds or ionic bonds, are typically not considered single molecules.

Concepts similar to molecules have been discussed since ancient times, but modern investigation into the nature of molecules and their bonds began in the 17th century. Refined over time by scientists such as Robert Boyle, Amedeo Avogadro, Jean Perrin, and Linus Pauling, the study of molecules is today known as molecular physics or molecular chemistry.

Etymology

According to Merriam-Webster and the Online Etymology Dictionary, the word "molecule" derives from the Latin "moles" or small unit of mass. The word is derived from French molécule (1678), from New Latin molecula, diminutive of Latin moles "mass, barrier". The word, which until the late 18th century was used only in Latin form, became popular after being used in works of philosophy by Descartes.

History

The definition of the molecule has evolved as knowledge of the structure of molecules has increased. Earlier definitions were less precise, defining molecules as the smallest particles of pure chemical substances that still retain their composition and chemical properties. This definition often breaks down since many substances in ordinary experience, such as rocks, salts, and metals, are composed of large crystalline networks of chemically bonded atoms or ions, but are not made of discrete molecules.

The modern concept of molecules can be traced back towards pre-scientific and Greek philosophers such as Leucippus and Democritus who argued that all the universe is composed of atoms and voids. Circa 450 BC Empedocles imagined fundamental elements (fire (Fire symbol (alchemical).svg), earth (Earth symbol (alchemical).svg), air (Air symbol (alchemical).svg), and water (Water symbol (alchemical).svg)) and "forces" of attraction and repulsion allowing the elements to interact.

A fifth element, the incorruptible quintessence aether, was considered to be the fundamental building block of the heavenly bodies. The viewpoint of Leucippus and Empedocles, along with the aether, was accepted by Aristotle and passed to medieval and renaissance Europe.

In a more concrete manner, however, the concept of aggregates or units of bonded atoms, i.e. "molecules", traces its origins to Robert Boyle's 1661 hypothesis, in his famous treatise The Sceptical Chymist, that matter is composed of clusters of particles and that chemical change results from the rearrangement of the clusters. Boyle argued that matter's basic elements consisted of various sorts and sizes of particles, called "corpuscles", which were capable of arranging themselves into groups. In 1789, William Higgins published views on what he called combinations of "ultimate" particles, which foreshadowed the concept of valency bonds. If, for example, according to Higgins, the force between the ultimate particle of oxygen and the ultimate particle of nitrogen were 6, then the strength of the force would be divided accordingly, and similarly for the other combinations of ultimate particles.

Amedeo Avogadro created the word "molecule". His 1811 paper "Essay on Determining the Relative Masses of the Elementary Molecules of Bodies", he essentially states, i.e. according to Partington's A Short History of Chemistry, that:

The smallest particles of gases are not necessarily simple atoms, but are made up of a certain number of these atoms united by attraction to form a single molecule.

In coordination with these concepts, in 1833 the French chemist Marc Antoine Auguste Gaudin presented a clear account of Avogadro's hypothesis, regarding atomic weights, by making use of "volume diagrams", which clearly show both semi-correct molecular geometries, such as a linear water molecule, and correct molecular formulas, such as H2O:

Marc Antoine Auguste Gaudin's volume diagrams of molecules in the gas phase (1833)

In 1917, an unknown American undergraduate chemical engineer named Linus Pauling was learning the Dalton hook-and-eye bonding method at the Oregon Agricultural College, which was the mainstream description of bonds between atoms at the time. Pauling, however, wasn't satisfied with this method and looked to the newly emerging field of quantum physics for a new method. In 1926, French physicist Jean Perrin received the Nobel Prize in physics for proving, conclusively, the existence of molecules. He did this by calculating Avogadro's number using three different methods, all involving liquid phase systems. First, he used a gamboge soap-like emulsion, second by doing experimental work on Brownian motion, and third by confirming Einstein's theory of particle rotation in the liquid phase.

In 1927, the physicists Fritz London and Walter Heitler applied the new quantum mechanics to the deal with the saturable, nondynamic forces of attraction and repulsion, i.e., exchange forces, of the hydrogen molecule. Their valence bond treatment of this problem, in their joint paper, was a landmark in that it brought chemistry under quantum mechanics. Their work was an influence on Pauling, who had just received his doctorate and visited Heitler and London in Zürich on a Guggenheim Fellowship.

Subsequently, in 1931, building on the work of Heitler and London and on theories found in Lewis' famous article, Pauling published his ground-breaking article "The Nature of the Chemical Bond" in which he used quantum mechanics to calculate properties and structures of molecules, such as angles between bonds and rotation about bonds. On these concepts, Pauling developed hybridization theory to account for bonds in molecules such as CH4, in which four sp³ hybridised orbitals are overlapped by hydrogen's 1s orbital, yielding four sigma (σ) bonds. The four bonds are of the same length and strength, which yields a molecular structure as shown below:

A schematic presentation of hybrid orbitals overlapping hydrogens' s orbitals

Molecular science

The science of molecules is called molecular chemistry or molecular physics, depending on whether the focus is on chemistry or physics. Molecular chemistry deals with the laws governing the interaction between molecules that results in the formation and breakage of chemical bonds, while molecular physics deals with the laws governing their structure and properties. In practice, however, this distinction is vague. In molecular sciences, a molecule consists of a stable system (bound state) composed of two or more atoms. Polyatomic ions may sometimes be usefully thought of as electrically charged molecules. The term unstable molecule is used for very reactive species, i.e., short-lived assemblies (resonances) of electrons and nuclei, such as radicals, molecular ions, Rydberg molecules, transition states, van der Waals complexes, or systems of colliding atoms as in Bose–Einstein condensate.

Prevalence

Molecules as components of matter are common. They also make up most of the oceans and atmosphere. Most organic substances are molecules. The substances of life are molecules, e.g. proteins, the amino acids of which they are composed, the nucleic acids (DNA and RNA), sugars, carbohydrates, fats, and vitamins. The nutrient minerals are generally ionic compounds, thus they are not molecules, e.g. iron sulfate.

However, the majority of familiar solid substances on Earth are made partly or completely of crystals or ionic compounds, which are not made of molecules. These include all of the minerals that make up the substance of the Earth, sand, clay, pebbles, rocks, boulders, bedrock, the molten interior, and the core of the Earth. All of these contain many chemical bonds, but are not made of identifiable molecules.

No typical molecule can be defined for salts nor for covalent crystals, although these are often composed of repeating unit cells that extend either in a plane, e.g. graphene; or three-dimensionally e.g. diamond, quartz, sodium chloride. The theme of repeated unit-cellular-structure also holds for most metals which are condensed phases with metallic bonding. Thus solid metals are not made of molecules. In glasses, which are solids that exist in a vitreous disordered state, the atoms are held together by chemical bonds with no presence of any definable molecule, nor any of the regularity of repeating unit-cellular-structure that characterizes salts, covalent crystals, and metals.

Bonding

Molecules are generally held together by covalent bonding. Several non-metallic elements exist only as molecules in the environment either in compounds or as homonuclear molecules, not as free atoms: for example, hydrogen.

While some people say a metallic crystal can be considered a single giant molecule held together by metallic bonding, others point out that metals behave very differently than molecules.

Covalent

A covalent bond forming H2 (right) where two hydrogen atoms share the two electrons
 

A covalent bond is a chemical bond that involves the sharing of electron pairs between atoms. These electron pairs are termed shared pairs or bonding pairs, and the stable balance of attractive and repulsive forces between atoms, when they share electrons, is termed covalent bonding.

Ionic

Sodium and fluorine undergoing a redox reaction to form sodium fluoride. Sodium loses its outer electron to give it a stable electron configuration, and this electron enters the fluorine atom exothermically.

Ionic bonding is a type of chemical bond that involves the electrostatic attraction between oppositely charged ions, and is the primary interaction occurring in ionic compounds. The ions are atoms that have lost one or more electrons (termed cations) and atoms that have gained one or more electrons (termed anions). This transfer of electrons is termed electrovalence in contrast to covalence. In the simplest case, the cation is a metal atom and the anion is a nonmetal atom, but these ions can be of a more complicated nature, e.g. molecular ions like NH4+ or SO42−. At normal temperatures and pressures, ionic bonding mostly creates solids (or occasionally liquids) without separate identifiable molecules, but the vaporization/sublimation of such materials does produce separate molecules where electrons are still transferred fully enough for the bonds to be considered ionic rather than covalent.

Molecular size

Most molecules are far too small to be seen with the naked eye, although molecules of many polymers can reach macroscopic sizes, including biopolymers such as DNA. Molecules commonly used as building blocks for organic synthesis have a dimension of a few angstroms (Å) to several dozen Å, or around one billionth of a meter. Single molecules cannot usually be observed by light (as noted above), but small molecules and even the outlines of individual atoms may be traced in some circumstances by use of an atomic force microscope. Some of the largest molecules are macromolecules or supermolecules.

The smallest molecule is the diatomic hydrogen (H2), with a bond length of 0.74 Å.

Effective molecular radius is the size a molecule displays in solution. The table of permselectivity for different substances contains examples.

Molecular formulas

Chemical formula types

The chemical formula for a molecule uses one line of chemical element symbols, numbers, and sometimes also other symbols, such as parentheses, dashes, brackets, and plus (+) and minus (−) signs. These are limited to one typographic line of symbols, which may include subscripts and superscripts.

A compound's empirical formula is a very simple type of chemical formula. It is the simplest integer ratio of the chemical elements that constitute it. For example, water is always composed of a 2:1 ratio of hydrogen to oxygen atoms, and ethanol (ethyl alcohol) is always composed of carbon, hydrogen, and oxygen in a 2:6:1 ratio. However, this does not determine the kind of molecule uniquely – dimethyl ether has the same ratios as ethanol, for instance. Molecules with the same atoms in different arrangements are called isomers. Also carbohydrates, for example, have the same ratio (carbon:hydrogen:oxygen= 1:2:1) (and thus the same empirical formula) but different total numbers of atoms in the molecule.

The molecular formula reflects the exact number of atoms that compose the molecule and so characterizes different molecules. However different isomers can have the same atomic composition while being different molecules.

The empirical formula is often the same as the molecular formula but not always. For example, the molecule acetylene has molecular formula C2H2, but the simplest integer ratio of elements is CH.

The molecular mass can be calculated from the chemical formula and is expressed in conventional atomic mass units equal to 1/12 of the mass of a neutral carbon-12 (12C isotope) atom. For network solids, the term formula unit is used in stoichiometric calculations.

Structural formula

3D (left and center) and 2D (right) representations of the terpenoid molecule atisane
 

For molecules with a complicated 3-dimensional structure, especially involving atoms bonded to four different substituents, a simple molecular formula or even semi-structural chemical formula may not be enough to completely specify the molecule. In this case, a graphical type of formula called a structural formula may be needed. Structural formulas may in turn be represented with a one-dimensional chemical name, but such chemical nomenclature requires many words and terms which are not part of chemical formulas.

Molecular geometry

Structure and STM image of a "cyanostar" dendrimer molecule.

Molecules have fixed equilibrium geometries—bond lengths and angles— about which they continuously oscillate through vibrational and rotational motions. A pure substance is composed of molecules with the same average geometrical structure. The chemical formula and the structure of a molecule are the two important factors that determine its properties, particularly its reactivity. Isomers share a chemical formula but normally have very different properties because of their different structures. Stereoisomers, a particular type of isomer, may have very similar physico-chemical properties and at the same time different biochemical activities.

Molecular spectroscopy

Hydrogen can be removed from individual H2TPP molecules by applying excess voltage to the tip of a scanning tunneling microscope (STM, a); this removal alters the current-voltage (I-V) curves of TPP molecules, measured using the same STM tip, from diode like (red curve in b) to resistor like (green curve). Image (c) shows a row of TPP, H2TPP and TPP molecules. While scanning image (d), excess voltage was applied to H2TPP at the black dot, which instantly removed hydrogen, as shown in the bottom part of (d) and in the rescan image (e). Such manipulations can be used in single-molecule electronics.

Molecular spectroscopy deals with the response (spectrum) of molecules interacting with probing signals of known energy (or frequency, according to Planck's formula). Molecules have quantized energy levels that can be analyzed by detecting the molecule's energy exchange through absorbance or emission. Spectroscopy does not generally refer to diffraction studies where particles such as neutrons, electrons, or high energy X-rays interact with a regular arrangement of molecules (as in a crystal).

Microwave spectroscopy commonly measures changes in the rotation of molecules, and can be used to identify molecules in outer space. Infrared spectroscopy measures the vibration of molecules, including stretching, bending or twisting motions. It is commonly used to identify the kinds of bonds or functional groups in molecules. Changes in the arrangements of electrons yield absorption or emission lines in ultraviolet, visible or near infrared light, and result in colour. Nuclear resonance spectroscopy measures the environment of particular nuclei in the molecule, and can be used to characterise the numbers of atoms in different positions in a molecule.

Theoretical aspects

The study of molecules by molecular physics and theoretical chemistry is largely based on quantum mechanics and is essential for the understanding of the chemical bond. The simplest of molecules is the hydrogen molecule-ion, H2+, and the simplest of all the chemical bonds is the one-electron bond. H2+ is composed of two positively charged protons and one negatively charged electron, which means that the Schrödinger equation for the system can be solved more easily due to the lack of electron–electron repulsion. With the development of fast digital computers, approximate solutions for more complicated molecules became possible and are one of the main aspects of computational chemistry.

When trying to define rigorously whether an arrangement of atoms is sufficiently stable to be considered a molecule, IUPAC suggests that it "must correspond to a depression on the potential energy surface that is deep enough to confine at least one vibrational state". This definition does not depend on the nature of the interaction between the atoms, but only on the strength of the interaction. In fact, it includes weakly bound species that would not traditionally be considered molecules, such as the helium dimer, He2, which has one vibrational bound state and is so loosely bound that it is only likely to be observed at very low temperatures.

Whether or not an arrangement of atoms is sufficiently stable to be considered a molecule is inherently an operational definition. Philosophically, therefore, a molecule is not a fundamental entity (in contrast, for instance, to an elementary particle); rather, the concept of a molecule is the chemist's way of making a useful statement about the strengths of atomic-scale interactions in the world that we observe.

Politics of climate change

From Wikipedia, the free encyclopedia
 
Heads of delegations at the 2015 United Nations Paris conference.

The politics of climate change results from different perspectives on how to respond to climate change. Global warming is driven largely by the emissions of greenhouse gases due to human economic activity, especially the burning of fossil fuels, certain industries like cement and steel production, and land use for agriculture and forestry. Since the Industrial Revolution, fossil fuels have provided the main source of energy for economic and technological development. The centrality of fossil fuels and other carbon-intensive industries has resulted in much resistance to climate friendly policy, despite widespread scientific consensus that such policy is necessary.

Climate change first emerged as a political issue in the 1970s. Efforts to mitigate climate change have been prominent on the international political agenda since the 1990s, and are also increasingly addressed at national and local level. Climate change is a complex global problem. Greenhouse gas (GHG) emissions contribute to global warming across the world, regardless of where the emissions originate. Yet the impact of global warming varies widely depending on how vulnerable a location or economy is to its effects. Global warming is on the whole having negative impact, which is predicted to worsen as heating increases. Ability to benefit from both fossil fuels and renewable energy sources vary substantially from nation to nation.

Different responsibilities, benefits and climate related threats faced by the world's nations contributed to early climate change conferences producing little beyond general statements of intent to address the problem, and non-binding commitments from the developed countries to reduce emissions. In the 21st century, there has been increased attention to mechanisms like climate finance in order for vulnerable nations to adapt to climate change. In some nations and local jurisdictions, climate friendly policies have been adopted that go well beyond what was committed to at international level. Yet local reductions in GHG emission that such policies achieve will not slow global warming unless the overall volume of GHG emission declines across the planet.

Since entering the 2020s, the feasibility of replacing energy from fossil fuel with renewable energy sources significantly increased, with some countries now generating almost all their electricity from renewables. Public awareness of the climate change threat has risen, in larger part due to social movement led by youth and visibility of the impacts of climate change, such as extreme weather events and flooding caused by sea level rise. Many surveys show a growing proportion of voters support tackling climate change as a high priority, making it easier for politicians to commit to policies that include climate action. The COVID-19 pandemic and economic recession lead to widespread calls for a "green recovery", with some political contexts like the European Union successfully integrating climate action into policy change. Outright climate change denial had become a much less influential force by 2019, where opposition has pivoted to strategies of encouraging delay or inaction.

Effects of climate change

Global heating is driven by human emissions of greenhouse gases (GHG). As of 2021, average temperatures have already risen about 1.2 °C above pre-industrial levels. This rise has already contributed to the extinction of numerous plants and animals and to many thousands of human deaths. At the 2015 Paris conference, nations agreed to make efforts to keep further rises well below 2 °C, and to try to limit them to 1.5 °C. Specific actions to achieve this have not yet been decided. With existing policies and commitments, global warming is projected to reach about 3 °C by 2100. The impact of global warming could be worsened by the possible triggering of irreversible climate tipping points.

In the worst case, feedback from mutually reinforcing cascading tipping points could lead to runaway climate change beyond human ability to control; though this is considered highly unlikely. Considerable economic disruption is predicted even if political agreement is strong enough to achieve the RCP 2.6 pathway, which is likely to keep warming between 1.5 °C and 2 °C. Among the risks of 2 °C warming are sea level rises that could devastate various Island nations, along with vulnerable countries and regions with much low-lying land, such as Bangladesh or Florida. A 3 °C rise would sharply increase occurrences of deadly wet-bulb temperatures, potentially leading to the deaths of tens of millions of people who live in the tropics, unless they are able to migrate or seek shelter in reliably air conditioned areas.

History

The history of climate change policy and politics refers to the continuing history of political actions, policies, trends, controversies and activist efforts as they pertain to the issue of global warming and other environmental anomalies. Dryzek, Norgaard, and Schlosberg suggest that critical reflection on the history of climate policy is necessary because it provides 'ways to think about one of the most difficult issues we human beings have brought upon ourselves in our short life on the planet’.

Climate change emerged as a political issue in the 1970s, where activist and formal efforts were taken to ensure environmental crises were addressed on a global scale. International policy regarding climate change has focused on cooperation and the establishment of international guidelines to address global warming. The United Nations Framework Convention on Climate Change (UNFCCC) is a largely accepted international agreement that has continuously developed to meet new challenges.

Domestic policy on climate change has focused on both establishing internal measures to reduce greenhouse gas emissions and incorporating international guidelines into domestic law.

In the late 20th and 21st century, climate change policy moved away from attempts to mitigate the impact of global warming and towards adapting to unavoidable changes to the human environment. There has also been a shift towards vulnerability based policy for those most impacted by environmental anomalies. Over the history of climate policy, concerns have been raised about the treatment of developing nations and a lack of gender specific action.

Policy debate

Like all policy debates, the political debate on climate change is fundamentally about action. Various distinct arguments underpin the politics of climate change - such as different assessments of the urgency of the threat, and on the feasibility, advantages and disadvantages of various responses. But essentially, these all relate to potential responses to climate change. To date, a consensual agreement on a credible climate-change framework internationally is still in the works.

The statements that form political arguments can be divided into two types: positive and normative statements. Positive statements can generally be clarified or refuted by careful definition of terms, and scientific evidence. Whereas normative statements about what one "ought" to do often relate at least partly to morality, and are essentially a matter of judgement. Experience has indicated that better progress is often made at debates if participants attempt to disentangle the positive and normative parts of their arguments, reaching agreement on the positive statements first. In the early stages of a debate, the normative positions of participants can be strongly influenced by perceptions of the best interests of whatever constituency they represent. In achieving exceptional progress at the 2015 Paris conference, Christiana Figueres and others noted it was helpful that key participants were able to move beyond a competitive mindset concerning competing interests, to normative statements that reflected a shared abundance based collaborative mindset.

Actions in response to climate change can be divided into three classes: mitigation – actions to reduce greenhouse gas emissions, adaptation – actions to defend against the negative results of global warming, and climate engineering – direct human intervention in the climate, aimed at reducing average global temperature.

Most 20th century international debate on climate change focused almost entirely on mitigation. It was sometimes considered defeatist to pay much attention to adaptation. Also, compared to mitigation, adaptation is more a local matter, with different parts of the world facing vastly different threats and opportunities from climate change. By the early 21st century, while mitigation still receives most attention in political debates, it is no longer the sole focus. Some degree of adaptation is now widely considered essential, and is discussed internationally at least at high level, though which specific actions to take remain mostly a local matter. A commitment to provide $100 billion per year worth of funding to developing countries was made at the 2009 Copenhagen Summit. At Paris, it was clarified that allocation of the funding should involve a balanced split between adaptation and mitigation, though as of December 2020, not all funding had been provided, and what had been delivered was going mainly to mitigation projects. By 2019, possibilities for geoengineering were also increasingly being discussed, and were expected to become more prominent in future debates.

Political debate concerning which specific courses of action for achieving effective mitigation tends to vary depending on the scale of governance concerned. Different considerations apply for international debate, compared with national and municipal level discussion. In the 1990s, when climate change first became prominent on the political agenda, there was optimism that the problem could be successfully tackled. The then recent signing of the 1987 Montreal Protocol to protect the ozone layer had indicated that the world was able to act collectively to address a threat warned about by scientists, even when it was not yet causing significant harm to humans. Yet by the early 2000s, GHG emissions had continued to rise, with little sign of agreement to penalise emitters or reward climate friendly behaviour. It had become clear that achieving global agreement for effective action to limit global warming would be much more challenging. Some politicians, such as Arnold Schwarzenegger with his slogan "terminate pollution", say that activists should generate optimism by focusing on the health co-benefits of climate action.

Multilateral

Global carbon dioxide emissions by jurisdiction (as of 2015)

Climate change became a fixture on the global political agenda in the early 1990s, with United Nations Climate Change conferences set to run yearly. These annual events are also called Conferences of the Parties (COPs). Major landmark COPs were the 1997 Kyoto Protocol, the 2009 Copenhagen Summit and the 2015 Paris conference. Kyoto was initially considered promising, yet by the early 2000s its results had proved disappointing. Copenhagen saw a major attempt to move beyond Kyoto with a much stronger package of commitments, yet largely failed. Paris was widely considered successful, yet how effective it will be at reducing long term global warming remains to be seen.

At international level, there are three broad approaches to emissions reduction that nations can attempt to negotiate. Firstly, the adoption of emissions reductions targets. Secondly, setting a carbon price. Lastly, creating largely voluntary set of processes to encourage emission reduction, which include the sharing of information and progress reviews. These approaches are largely complementary, though at various conferences much of the focus has often been on a single approach. Until about 2010, international negotiations focused largely on emissions targets. The success of the Montreal treaty in reducing emissions that damaged the ozone layer suggested that targets could be effective. Yet in the case of greenhouse gas reductions, targets have not in general led to substantial cuts in emissions. Ambitious targets have usually not been met. Attempts to impose severe penalties that would incentivise more determined efforts to meet challenging targets, have always been blocked by at least one or two nations.

In the 21st century, there is widespread agreement that a carbon price is the most effective way to reduce emissions, at least in theory. Generally though, nations have been reluctant to adopt a high carbon price, or in most cases any price at all. One of the main reasons for this reluctance is the problem of carbon leakage – the phenomena where activities producing GHG emissions are moved out of the jurisdiction that imposes the carbon price thus depriving the jurisdiction of jobs & revenue, and to no benefit, as the emissions will be released elsewhere. Nonetheless, the percentage of the worlds' emissions that are covered by a carbon price rose from 5% in 2005, to 15% by 2019, and should reach over 40% once China's carbon price comes fully into force. Existing carbon price regimes have been implemented mostly independently by the European Union, nations and sub national jurisdictions acting autonomously.

The largely voluntary pledge and review system where states make their own plans for emissions reduction was introduced in 1991, but abandoned before the 1997 Kyoto treaty, where the focus was on securing agreement for "top down" emissions targets. The approach was revived at Copenhagen, and gained further prominence with the 2015 Paris Agreement, though pledges came to be called nationally determined contributions (NDCs). These are meant to be re-submitted in enhanced form every 5 years. How effective this approach is remains to be seen. Some countries submitted elevated NDCs in 2021, around the time of the Glasgow conference. Accounting rules for carbon trading were agreed at the 2021 Glasgow COP meeting.

Regional, National and sub national

The Climate Change Performance Index ranks countries by greenhouse gas emissions (40% of score), renewable energy (20%), energy use (20%), and climate policy (20%).
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Policies to reduce GHG emissions are set by either national or sub national jurisdictions, or at regional level in the case of the European Union. Much of the emission reduction policies that have been put into place have been beyond those required by international agreements. Examples include the introduction of a carbon price by some individual US states, or Costa Rica reaching 99% electrical power generation by renewables in the 2010s.

Actual decisions to reduce emissions or deploy clean technologies are mostly not made by governments themselves, but by individuals, businesses and other organisations. Yet it is national and local governments that set policies to encourage climate friendly activity. Broadly these policies can be divided into four types: firstly, the implementation of a carbon price mechanism and other financial incentives; secondly prescriptive regulations, for example mandating that a certain percentage of electricity generation must be from renewables; thirdly, direct government spending on climate friendly activity or research; and fourthly, approaches based on information sharing, education and encouraging voluntary climate friendly behaviour. Local politics is sometimes combined with air pollution, for example the politics of creating low emission zones in cities may also aim to reduce carbon emissions from road transport.

Non-governmental actors

Individuals, businesses and NGOs can affect the politics of climate change both directly and indirectly. Mechanisms include individual rhetoric, aggregate expression of opinion by means of polls, and mass protests. Historically, a significant proportion of these protests have been against climate friendly policies. Since the 2000 UK fuel protests there have been dozens of protests across the world against fuel taxes or the ending of fuel subsidies. Since 2019 and the advent of the school strike and Extinction Rebellion, pro climate protests have become more prominent. Indirect channels for apolitical actors to effect the politics of climate change include funding or working on green technologies, and the fossil fuel divestment movement.

Special interests and lobbying by non-country actors

Global warming has attracted the attention of left-wing groups, as here with the Democratic Socialists of America.

There are numerous special interest groups, organizations, and corporations who have public and private positions on the multifaceted topic of global warming. The following is a partial list of the types of special interest parties that have shown an interest in the politics of global warming:

  • Fossil fuel companies: Traditional fossil fuel corporations stand to lose from stricter global warming regulations, though there are exceptions. The fact fossil fuel companies are engaged in energy trading might mean that their participation in trading schemes and other such mechanisms could give them a unique advantage, so it is unclear whether every traditional fossil fuel companies would always be against stricter global warming policies. As an example, Enron, a traditional gas pipeline company with a large trading desk heavily lobbied the United States government to regulate CO2: they thought that they would dominate the energy industry if they could be at the center of energy trading.
  • Farmers and agribusiness are an important lobby but vary in their views on effects of climate change on agriculture and greenhouse gas emissions from agriculture and, for example, the role of the EU Common Agricultural Policy.
  • Financial Institutions: Financial institutions generally support policies against global warming, particularly the implementation of carbon trading schemes and the creation of market mechanisms that associate a price with carbon. These new markets require trading infrastructures, which banking institutions can provide. Financial institutions are also well positioned to invest, trade and develop various financial instruments that they could profit from through speculative positions on carbon prices and the use of brokerage and other financial functions like insurance and derivative instruments.
  • Environmental groups: Environmental advocacy groups generally favor strict restrictions on CO2 emissions. Environmental groups, as activists, engage in raising awareness.
  • Renewable energy and energy efficiency companies: companies in wind, solar and energy efficiency generally support stricter global warming policies. They expect their share of the energy market to expand as fossil fuels are made more expensive through trading schemes or taxes.
  • Nuclear power companies: support and benefit from carbon pricing or subsidies of low-carbon energy production, as nuclear power produces minimal greenhouse gas emissions.
  • Electricity distribution companies: may lose from solar panels but benefit from electric vehicles.
  • Traditional retailers and marketers: traditional retailers, marketers, and the general corporations respond by adopting policies that resonate with their customers. If "being green" provides customer appeal, then they could undertake modest programs to please and better align with their customers. However, since the general corporation does not make a profit from their particular position, it is unlikely that they would strongly lobby either for or against a stricter global warming policy position.
  • Medics: often say that climate change and air pollution can be tackled together and so save millions of lives.
  • Information and communications technology companies: say their products help others combat climate change, tend to benefit from reductions in travel, and many purchase green electricity.

The various interested parties sometimes align with one another to reinforce their message, for example electricity companies fund the purchase of electric school buses to benefit medics by reducing the load on the health service whilst at the same time selling more electricity. Sometimes industries will fund specialty nonprofit organizations to raise awareness and lobby on their behest.

Collective action

Current climate politics are influenced by a number of social and political movements focused on different parts of building political will for climate action. This includes the climate justice movement, youth climate movement and movements to divest from fossil fuel industries.

Divestment movement

As of 2021, 1,300 institutions possessing 14.6 trillion dollars divested from the fossil fuel industry.

Fossil fuel divestment or fossil fuel divestment and investment in climate solutions is an attempt to reduce climate change by exerting social, political, and economic pressure for the institutional divestment of assets including stocks, bonds, and other financial instruments connected to companies involved in extracting fossil fuels.

Fossil fuel divestment campaigns emerged on campuses in the United States in 2011 with students urging their administrations to turn endowment investments in the fossil fuel industry into investments in clean energy and communities most impacted by climate change. In 2012, Unity College in Maine became the first institution of higher learning to divest its endowment from fossil fuels.

By 2015, fossil fuel divestment was reportedly the fastest growing divestment movement in history. In October 2021, a total of 1,485 institutions representing $39.2 trillion in assets worldwide had begun or committed to a divestment from fossil fuels.

Youth movement

Maximum number of school strikers per country:
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School Strike for Climate (Swedish: Skolstrejk för klimatet), also known variously as Fridays for Future (FFF), Youth for Climate, Climate Strike or Youth Strike for Climate, is an international movement of school students who skip Friday classes to participate in demonstrations to demand action from political leaders to prevent climate change and for the fossil fuel industry to transition to renewable energy.

Publicity and widespread organising began after Swedish pupil Greta Thunberg staged a protest in August 2018 outside of the Swedish Riksdag (parliament), holding a sign that read "Skolstrejk för klimatet" ("School strike for climate").

A global strike on 15 March 2019 gathered more than one million strikers in 2,200 strikes organised in 125 countries. On 24 May 2019, in the second global strike, 1,600 protests across 150 countries drew hundreds of thousands of strikers. The May protests were timed to coincide with the 2019 European Parliament election.

The 2019 Global Week for Future was a series of 4,500 strikes across over 150 countries, focused around Friday 20 September and Friday 27 September. Likely the largest climate strikes in world history, the 20 September strikes gathered roughly 4 million protesters, many of them schoolchildren, including 1.4 million in Germany. On 27 September, an estimated two million people participated in demonstrations worldwide, including over one million protesters in Italy and several hundred thousand protesters in Canada.

Current outlook

Historical political attempts to agree on policies to limit global warming have largely failed. Commentators have expressed optimism that the 2020s can be more successful, due to various recent developments and opportunities that were not present during earlier periods. Other commentators have expressed warnings that there is now very little time to act in order to have any chance of keeping warming below 1.5 °C, or even to have a good chance of keeping global heating under 2 °C.

Opportunities

In the late 2010s, various developments conducive to climate friendly politics saw commentators express optimism that the 2020s might see good progress in addressing the threat of global heating.

Tipping point in public opinion

Greta Thunberg. Her Fridays for future movement has been influential in raising public awareness of the threat from global warming.

The year 2019 has been described as "the year the world woke up to climate change", driven by factors such growing recognition of the global warming threat resulting from recent extreme weather events, the Greta effect and the IPPC 1.5 °C report

In 2019, the secretary general of OPEC recognised the school strike movement as the greatest threat faced by the fossil fuel industry. According to Christiana Figueres, once about 3.5% of a population start participating in non violent protest, they are always successful in sparking political change, with the success of Greta Thunberg's Fridays for Future movement suggesting that reaching this threshold may be obtainable.

Reduced influence of climate change denial

By 2019, outright climate change denial had become a much less influential force than it had been in previous years. Reasons for this include the increasing frequency of extreme weather events, more effective communication on the part of climate scientists, and the Greta effect. As an example, in 2019 the Cato Institute closed down its climate shop.

Growth of renewable energy

Renewable energy is an inexhaustible source of naturally replenishing energy. The major renewable energy sources are wind, hydropower, solar, geothermal, and biomass. In 2020, renewable energy generated 29% of world electricity.

In the wake of the Paris Agreement, 168 countries have adopted national renewable energy targets and 115 counties as well, have national renewable energy targets. There are many different efforts used by these countries to help include renewable energy investments such as 102 countries have implemented tax credits, 101 countries include some sort of public investment, and 100 countries currently use tax reductions. The largest CO2 emitters tend to be industrialized countries like the US, China, UK, and India. These countries aren't implementing enough industrial policies (188) compared to deployment policies (more than 1,000). It's clear that these policies must be created in a way where they build upon each other, so they are most effective.

A group of women world leaders at the COP26 in Glasgow.

In November 2021, the 26th United Nation Conference of the Parties (COP26) took place in Glasgow, Scotland. Almost 200 nations agreed to accelerate the fight against climate change and commit to more effective climate pledges. Some of the new pledges included reforms on methane gas pollution, deforestation, and coal financing. Surprisingly, the US and China (the two largest carbon emitters) also both agreed to work together on efforts to prevent global warming from surpassing 1.5 degrees Celsius. Some scientists, politicians, and activist are arguing that enough hasn't been done at this summit and that we will still reach that 1.5 degree tipping point. An Independent report by Climate Action Tracker said the commitments were “lip service” and “we will emit roughly twice as much in 2030 as required for 1.5 degrees.”

As of 2020, the feasibility of replacing energy from fossil fuel with nuclear and especially renewable energy has much increased, with dozens of countries now generating more than half of their electricity from renewable sources.

Green recovery

Green recovery packages are proposed environmental, regulatory and fiscal reforms to build prosperity in the wake of an economic crisis, like the COVID-19 pandemic or the Global Financial Crisis. They pertain to fiscal measures that intend to recover economic growth while also positively benefitting the environment, including measures for renewable energy, efficient energy use, nature based solutions, sustainable transport, green innovation and green jobs, amongst others.

For green recovery in response to the COVID-19 pandemic, support has come from multiple political parties, governments, activists and academia across the European Union, the United Kingdom, the United States, and other countries. Following similar measures in response to the Global Financial Crisis, a key part of the packages is to ensure that actions to combat recession also combat climate change, including the reduction of coal, oil, and gas use, clean transport, renewable energy, eco-friendly buildings, and sustainable corporate or financial practices. These initiatives are supported by the United Nations and the Organisation for Economic Co-operation and Development. Several global initiatives have provided live tracking of national fiscal responses, including the Global Recovery Observatory (from Oxford University, the United Nations, and the IMF), the Energy Policy Tracker (from a consortium of six organisations), and the OECD's Green Recovery Tracker. The Global Recovery Observatory includes ~8,000 policies in 88 countries compared to ~1,700 for Energy Policy Tracker in 35 countries, and 1,500 in 44 countries for the OECD.

Dilineating between rescue and recovery investment, an Oxford University March 2021 analysis found that 18% of recovery investment and 2.5% of total spending had been green. In July 2021, the International Energy Agency supported that analysis, noting that only around 2% of economic bailout money worldwide was going to clean energy. According to a 2022 analysis of the $14tn that G20 countries have spent as economic stimulus, only about 6% of pandemic recovery spending has been allocated to areas that will also cut greenhouse-gas emissions, including electrifying vehicles, making buildings more energy efficient and installing renewables.

Challenges

Despite various promising conditions, commentators tend to warn that several difficult challenges remain, which need to be overcome if climate change politics is to result in a substantial reduction of greenhouse gas emissions. For example increasing tax on meat can be politically difficult.

Urgency

As of 2021, CO2 levels have already increased by about 50% since the pre-industrial era, with billions of tons more being released each year. Global warming has already passed the point where it is beginning to have a catastrophic impact in some localities. So major policy changes need to be implemented very soon if the risk of escalating environmental impact is to be avoided.

Centrality of fossil fuel

Energy from fossil fuels remains central to the worlds economy, accounting for about 80% of its energy generation as of 2019. Suddenly removing fossil fuel subsidies from consumers has often been found to cause riots. While clean energy can sometimes be cheaper, provisioning large amounts of renewable energy in a short period of time tends to be challenging. According to a 2021 report by the International Energy Agency, energy related CO2 emissions from fossil fuels are set to rise in 2021 by 4.8%. This would be the second highest rise ever, expected to be driven largely by increased burning of coal. In 2022 the European Central Bank argued that high energy prices were accelerating the energy transition away from fossil fuel, but that governments should take steps to prevent energy poverty without hindering the move to low carbon energy.

Inactivism

While outright denial of climate change is much less prevalent in the 2020s compared to the preceding decades, many arguments continue to be made against taking action to limit GHG emissions. Such arguments include the view that there are better ways to spend available funds (such as adaptation), that it would be better to wait until new technology is developed as that would make mitigation cheaper, that technology and innovation will render climate change moot or resolve certain aspects, and that the future negative effects of climate change should be heavily discounted compared to current needs.

Fossil fuel lobby and political spending

The largest oil and gas corporations that comprise Big Oil and their industry lobbyist arm, the American Petroleum Institute (API), spend large amounts of money on lobbying and political campaigns, and employ hundreds of lobbyists, to obstruct and delay government action to address climate change. The fossil fuel lobby has considerable clout in Washington, D.C. and in other political centers, including the European Union and the United Kingdom. Fossil fuel industry interests spend many times as much on advancing their agenda in the halls of power than do ordinary citizens and environmental activists, with the former spending $2 billion in the years 2000–2016 on climate change lobbying in the United States. The five largest Big Oil corporations spent hundreds of millions of euros to lobby for its agenda in Brussels. Big Oil companies often adopt "sustainability principles" that are at odds with the policy agenda their lobbyists advocate, which often entails sewing doubt about the reality and impacts of climate change and forestalling government efforts to address them. API launched a public relations disinformation campaign with the aim of creating doubt in the public mind so that “climate change becomes a non-issue." This industry also spends lavishly on American political campaigns, with approximately 2/3 of its political contributions over the past several decades fueling Republican Party politicians, and outspending many fold political contributions from renewable energy advocates. Fossil fuel industry political contributions reward politicians who vote against environmental protections. According to a study published by the Proceedings of the National Academy of Sciences of the United States of America, as voting by a member of United States Congress turned more anti-environment, as measured by his/her voting record as scored by the League of Conservation Voters (LCV), the fossil fuel industry contributions that this member of Congress received increased. On average, a 10% decrease in the LCV score was correlated with an increase of $1,700 in campaign contributions from the fossil fuel industry for the campaign following the Congressional term.

Suppression of climate science

Big Oil companies, starting as early as the 1970s, suppressed their own scientists' reports of major climate impacts of the combustion of fossil fuels. ExxonMobil launched a corporate propaganda campaign promoting false information about the issue of climate change, a tactic that has been compared to Big Tobacco's public relations efforts to hoodwink the public about the dangers of smoking. Fossil fuel industry-funded think tanks harassed climate scientists who were publicly discussing the dire threat of climate change. As early as the 1980s when larger segments of the American public began to become aware of the climate change issue, the administrations of some United States presidents scorned scientists who spoke publicly of the threat fossil fuels posed for the climate. Other U.S. administrations have silenced climate scientists and muzzled government whistleblowers. Political appointees at a number of federal agencies prevented scientists from reporting their findings regarding aspects of the climate crisis, changed data modeling to arrive at conclusions they had set out a prior to prove, and shut out the input of career scientists of the agencies.

Targeting of climate activists

Climate and environmental activists, including, increasingly, those defending woodlands against the logging industry, have been killed in several countries, such as Colombia, Brazil and the Philippines. The perpetrators of most such killings have not been punished. A record number of such killings was recorded for the year 2019. Indigenous environmental activists are disproportionately targeted, comprising as many as 40% of fatalities worldwide. Domestic intelligence services of several governments, such as those of the U.S. government, have targeted environmental activists and climate change organizations as "domestic terrorists," surveilling them, investigating them, questioning them, and placing them on national "watchlists" that could make it more difficult for them to board airplanes and could instigate local law enforcement monitoring. Other U.S. tactics have included preventing media coverage of American citizen assemblies and protests against climate change, and partnering with private security companies to monitor activists.

Doomism

In the context of climate change politics, doomism refers to pessimistic narratives that claim that it is now too late to do anything about climate change. Doomism can include exaggeration of the probability of cascading climate tipping points, and their likelihood in triggering runaway global heating beyond human ability to control, even if humanity was able to immediately stop all burning of fossil fuels. In the US, polls found that for people who did not support further action to limit global warming, a belief that it is too late to do so was given as a more common reason than skepticism about man made climate change.

Lack of compromise

Several climate friendly policies have been blocked in the legislative process by environmental and/or left leaning pressure groups and parties. For example, in 2009, the Australian green party voted against the Carbon Pollution Reduction Scheme, as they felt it did not impose a high enough carbon price. In the US, the Sierra Club helped defeat a 2016 climate tax bill which they saw as lacking in social justice. Some of the attempts to impose a carbon price in US states have been blocked by left wing politicians because they were to be implemented by a cap and trade mechanism, rather than a tax.

Multi-sector governance

The issue of climate change usually fits into various sectors, which means that the integration of climate change policies into other policy areas is frequently called for. Thus the problem is difficult, as it needs to be addressed at multiple scales with diverse actors involved in the complex governance process.

Maladaptation

Successful adaptation to climate change requires balancing competing economic, social, and political interests. In the absence of such balancing, harmful unintended consequences can undo the benefits of adaptation initiatives. For example, efforts to protect coral reefs in Tanzania forced local villagers to shift from traditional fishing activities to farming that produced higher greenhouse gas emissions.

Technology

The promise of technology is seen as both a threat and a potential boon. New technologies can open up possibilities for new and more effective climate policies. Most models that indicate a path to limiting warming to 2 °C have a big role for carbon dioxide removal, one of the two main forms of climate engineering. Commentators from across the political spectrum tend to welcome CO2 removal. But some are sceptical that it will be ever be able to remove enough CO2 to slow global warming without there also being rapid cuts in emissions, and they warn that too much optimism about such technology may make it harder for mitigation policies to be enacted.

There is a somewhat opposite view towards the other main form of climate engineering, solar radiation management. At least with the sulphur based aerosol variant, there is broad agreement that it would be effective in bringing down average global temperatures. Yet the prospect is considered unwelcome by many climate scientists. They warn that side effects would include possible reductions in agricultural yields due to reduced sunlight and rainfall, and possible localised temperature rises and other weather disruptions. According to Michael Mann, the prospect of using solar management to reduce temperatures is another argument used to reduce willingness to enact emissions reduction policy.

Just transition

Economic disruption due to phaseout of carbon-intensive activities, such as coal mining, cattle farming or bottom trawling, can be politically sensitive due to the high political profile of coal miners, farmers and fishers in some countries. Many labor and environmental groups advocate for a just transition that minimizes the harm and maximizes the benefits associated with climate-related changes to society, for example by providing job training.

Different responses on the political spectrum

In the United States, Democrats (blue) and Republicans (red) have long differed in views of the importance of addressing climate change, with the gap widening in the late 2010s mainly through Democrats' share increasing by more than 30 points.
 
The sharp divide over the existence of and responsibility for global warming and climate change falls largely along political lines. Overall, 60% of Americans surveyed said oil and gas companies were "completely or mostly responsible" for climate change.
 
Opinion about human causation of climate change increased substantially with education among Democrats, but not among Republicans. Conversely, opinions favoring becoming carbon neutral declined substantially with age among Republicans, but not among Democrats.

Climate friendly policies are generally supported across the political spectrum. Though there have been many exceptions among voters and politicians leaning towards the right, and even politicians on the left have rarely made addressing climate change a top priority. Some nations and individuals are unwilling to reduce greenhouse gas emissions or enforce laws because in doing so, they would only suffer in paying the full price of abatement. In the 20th century, right wing politicians led much significant action against climate change, both internationally and domestically, with Richard Nixon and Margaret Thatcher being prominent examples. Yet by the 1990s, especially in some English speaking countries and most especially in the US, the issue began to be polarised. Right wing media started arguing that climate change was being invented or at least exaggerated by the left to justify an expansion in the size of government. As of 2020, some right wing governments have enacted increased climate friendly policies. Various surveys indicated a slight trend for even U.S. right wing voters to become less sceptical of global warming, and groups like American Conservation Coalition indicate young Republican voters embrace climate as a central policy field. Though in the view of Anatol Lieven, for some right wing US voters, being sceptical of climate change has become part of their identity, so their position on the matter can not easily be shifted by rational argument.

A 2014 study from the University of Dortmund concluded that countries with centre and left-wing governments had higher emission reductions than right-wing governments in OECD countries for the time period 1992–2008. Historically, nationalist governments have been among the worst performers in enacting policies. Though according to Lieven, as climate change is increasingly seen as a threat to the ongoing existence of nation states, nationalism is likely to become one of the most effective forces to drive determined mitigation efforts. The growing trend to securitize the climate change threat may be especially effective for increasing support among nationalist and conservatives.

Relationship to climate science

Global warming has attracted the attention of central bank governors, as here with Mark Carney, appointed UN envoy for climate action in 2019.

In the scientific literature, there is an overwhelming consensus that global surface temperatures have increased in recent decades and that the trend is caused primarily by human-induced emissions of greenhouse gases.

The politicization of science in the sense of a manipulation of science for political gains is a part of the political process. It is part of the controversies about intelligent design (compare the Wedge strategy) or Merchants of Doubt, scientists that are under suspicion to willingly obscure findings. e.g. about issues like tobacco smoke, ozone depletion, global warming or acid rain. However, e.g. in case of ozone depletion, global regulation based on the Montreal Protocol was successful, in a climate of high uncertainty and against strong resistance while in case of climate change, the Kyoto Protocol failed.

While the IPCC process tries to find and orchestrate the findings of global climate change research to shape a worldwide consensus on the matter it has itself been the object of a strong politicization. Anthropogenic climate change evolved from a mere science issue to a top global policy topic.

The IPCC process having built a broad science consensus does not stop governments following different, if not opposing goals. In case of the ozone depletion challenge, global regulation was already being put into place before a scientific consensus was established. So a linear model of policy-making, based on a the more knowledge we have, the better the political response will be view is not necessarily accurate. Instead knowledge policy, successfully managing knowledge and uncertainties as a foundation for political decision making; requires a better understanding of the relation between science, public (lack of) understanding and policy.

Most of the policy debate concerning climate change mitigation has been framed by projections for the twenty-first century. Academics have criticised this as short term thinking, as decisions made in the next few decades will have environmental consequences that will last for many millennia.

It has been estimated that only 0.12% of all funding for climate-related research is spent on the social science of climate change mitigation. Vastly more funding is spent on natural science studies of climate change and considerable sums are also spent on studies of the impact of and adaptation to climate change. It has been argued that this is a misallocation of resources, as the most urgent puzzle at the current juncture is to work out how to change human behavior to mitigate climate change, whereas the natural science of climate change is already well established and there will be decades and centuries to handle adaptation.

Lie group

From Wikipedia, the free encyclopedia https://en.wikipedia.org/wiki/Lie_group In mathematics , a Lie gro...