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Emotions - Understanding The Effects Of Emotions On Learning And Memory

Emotions are everywhere in nature and are essential, if not vital, in academic contexts because they influence practically every facet of cognition. Tests, exams, assignments, and deadlines are all related to various emotional states such as annoyance, worry, and boredom.

Author:Suleman Shah
Reviewer:Han Ju
Oct 06, 20227 Shares415 Views
Emotions are everywhere in nature and are essential, if not vital, in academic contexts because they influence practically every facet of cognition.
Tests, exams, assignments, and deadlines are all related to various emotional states such as annoyance, worry, and boredom.
Even the subject matter has an impact on emotions, which affects one's capacity to learn and recall. Intelligent tutoring systems (ITSs) and massive open online courses (MOOCs), which are rapidly replacing conventional face-to-face learning settings, are becoming more popular.
Learners may have a variety of emotional reactions as a result of this. As a result, emotional factors should be carefully explored in educational courses intended to increase student engagement while also improving learning and long-term retention.
Emotions have been shown in several studies to influence human cognitive functions such as attention, learning and memory, reasoning, and problem-solving.
These aspects are crucial in educational realms because when pupils confront problems, it negates the objective of education and may make it worthless.
Most notably, it seems that emotional stimuli demand more attentional resources than non-emotional stimuli.

Emotions, Moods, Feelings, Affects, And Drives

Emotions, moods, feelings, affects, and drives are subjective affective neuroscience concepts. Emotions have been researched for decades, yet no definition exists. A review of 92 putative definitions and 9 doubtful assertions implies a consensus definition.
Emotions are complex interactions between subjective and objective variables mediated by neural and hormonal systems that can (a) give rise to affective experiences of emotional valence (pleasure-displeasure) and emotional arousal (high-low activation/calming-arousing); (b) generate cognitive processes such as emotionally relevant perceptual affect, appraisals, and labeling processes; and (c) activate widespread psychological and physiological change.
This description may be suitable for daily use, but it leaves out essential features of emotional systems, such as how emotions form subjective feelings and regulate personality traits.
According to Panksepp, emotions are psychoneuronal processes that influence the intensity and patterning of behaviors in intense behavioral interactions between animals and meaningful things. Each emotion has a distinctive "feeling tone" that encodes the inherent values of interactions based on their potential for helping or hindering survival (both "personal" and "reproductive").
Subjective experiencing sensations come from the interplay of emotional systems with "the self's" underlying brain substrates, which are necessary for storing new knowledge, retrieving information on following events, and generalizing new events and making judgments.
He proposed seven major emotional systems/prototype emotional states: SEEKING, RAGE, FEAR, LUST, CARE, PANIC/GRIEF, and PLAY.
Feelings are mental experiences that are inevitably valenced, either pleasant or negative, and are accompanied by physiological changes in the body, notably the heart, lungs, and stomach, to maintain or restore homeostatic balances.
Emotions seldom create feelings because emotional experiences involve a neuronal remapping of bodily state aspects in the central nervous system (CNS), arising from cognitive "appraisal," where the anterior insular cortex plays an integrative function.

how to master your emotions | emotional intelligence

Panksepp argues that emotional operating systems (caudal and medial subcortical brain areas) seem to create emotional experiences through localized electrical stimulation of the brain (ESB) Affects are subjective emotional experiences that are hard to articulate but have been related to physical conditions (hunger, thirst) and external stimuli (visual, auditory, taste, touch, smell).
A "core effect" refers to bipolar pleasure and arousal processes that are consciously accessible. A "drive" is an intrinsic action program that satisfies fundamental and instinctive (biologically pre-set) physiological demands, such as hunger, thirst, desire, exploration, play, and connection to mates; this is termed "homeostatic drive."
Emotion, mood, emotions, affect, and drive all have positive and negative intrinsic valence (pleasure-displeasure/goodness-badness). Emotion is caused by external events and involves emotions and motivation.

Cognition Interactions And Its Effects On Learning And Memory

Studies in psychology and neuroscience suggest that cognition and emotion are operated by two separate but interacting systems: (i) the “cool cognitive system” is hippocampus-based and associated with emotionally neutral cognitive functions and cognitive controls; and (ii) the “hot emotional system” is amygdala-based and responsible for emotional processing and responses to unconditioned emotional stimuli such as appetitive and fear-evoking cues.
Both systems have an early dorsal/ventral stream distinction. The dorsal stream includes the dorsolateral prefrontal cortex (DLPFC) and lateral parietal cortex, which manage cognitive function and goal-relevant information in working memory (WM) despite interruption. The heated system includes the amygdala, ventrolateral prefrontal cortex (VLPFC), medial prefrontal cortex (mPFC), orbitofrontal (OFC), and occipito-temporal cortex (OTC).
Recent research claims that cognitive and emotional brain systems are highly connected and show mediation and regulation. Emotions may alter the establishment of a hippocampal-dependent memory system, affecting learning and remembering long-term.
Although cognitive and emotional processes may be separately conceived, emotions strongly influence cognitive assessments and memory processes. Innate emotional systems interact with higher brain systems and are not cognitively neutral. Behavioral flexibility would result if cortical processes evolved from subcortical underpinnings.

Cognitive-Emotional Neuroimaging Techniques

Different functional neuroimaging methods (fMRI, PET, and fNIRS) may be used to evaluate hemodynamic responses in brain areas related to cognitive-emotional interactions (indirect measurement). EEG is used to directly evaluate brain electrical patterns related to reactions to cognitive and emotional activities. Each approach has its advantages and disadvantages, as shown below.

Functional Magnetic Resonance Imaging (fMRI)

Functional magnetic resonance imaging (fMRI) offers great spatial resolution for mapping brain activity (a few millimeters). fMRI measures variations in local ratios of oxy-hemoglobin vs. deoxy-hemoglobin, a blood oxygenation level dependent (BOLD) signal. Dolcos et al. measured retrieval-related activity after a 1-year retention period using event-related fMRI in 2005. Emotional photos activated the amygdala, entorhinal cortex, and hippocampus more than neutral ones.
Both the amygdala and hippocampus were active during remembering compared to familiarity recognition, but the entorhinal cortex was unaffected. fMRI data shows higher activity in the substantia nigra/VTA, MTL, dmPFC, and DLPFC upon effective memory recall with high difficulty relative to low difficulty.
SN/VTA–MTL and SN/VTA–dmPFC reward-related functional connectivities increase with retrieval accuracy and perceived motivation. Shigemune et al. argue that reward/motivation-related memory improvement is controlled by networking between the SN/VTA (reward-related), dmPFC (motivation-related), and MTL (memory-related) networks and DLPFC (cognitive controls) with increasing task difficulty.
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Positron Emission Tomography (PET)

PET measures glucose metabolism or regional cerebral blood flow to map CNS physiology and neuronal activity (rCBF). PET employs positron-emitting radionuclides such as 18F-fluorodeoxyglucose (FDG) and water. This approach detects happy, awful, and neutral neural networks.
Increased rCBF in the mPFC, thalamus, hypothalamus, and midbrain is associated with pleasant and unpleasant emotional processing. While unpleasant emotions are more specifically associated with the bilateral OTC, cerebellum, left parahippocampal gyrus, hippocampus, and amygdala; the caudate nucleus is associated with pleasant emotions.
Emotional information improves visual memory recollection through interactions between perceptual and memory systems, notably via activating the lingual gyrus for visual stimuli. Strong negative emotional valence also improved early sensory processing.
During encoding, the left amygdaloid complex (AC) activated differently than the right PFC and mPFC. Tataranni et al. found CNS areas linked with appetite (hunger and satiation). Hunger enhanced rCBF uptake in the hypothalamus, insular cortex, limbic and paralimbic areas (anterior cingulate cortex, parahippocampal and hippocampal formation, anterior temporal and posterior orbitofrontal cortex), thalamus, caudate, precuneus, putamen, and cerebellum. Satiation enhanced vmPFC, DLPFC, and inferior parietal lobule rCBF uptake.
These results suggest that subcortical regions associated with emotion/motivation are involved in hunger, which signals distressing feelings (discomfort, pain, and anxiety) for regulating food intake, and (ii) the PFC is involved in satiation, which signals excessive food consumption for ending a meal.

Factors Affecting The Effect Of Emotion On Learning And Memory

The previous section presented neuroimaging methods used to investigate brain responses to emotional inputs during WM processing, which leads to LTM. This section outlines six critical elements that should be considered in the experimental design and technique.

Individual Differences

Numerous studies have shown a variety of factors, as well as individual variances in emotional processing. Personality qualities, intellectual ability, and sex are examples of these. Furthermore, it seems that sex hormones and personality factors (e.g., extraversion and neuroticism) impact individual reactions to emotional stimuli as well as alter emotional processing. Appropriate screening using psychological testing, as well as gender balancing experimental cohorts, may aid in reducing misleading findings due to individual variations.
According to studies, older persons are more accustomed with psychological stress and emotional experiences, resulting in optimism biases in emotional processing and better emotional regulation than younger ones. As a result, for both cognitive and emotional investigations, the age of participants in a sample group should be taken into account.

Emotional Stimulus Selection

There are two types of emotional stimuli used in experimental studies: (1) discrete emotional stimuli and (2) dimensional emotions such as valence, arousal, dominance, and familiarity. The latter comprises images from the IAPS database and text from the ANEW database, both of which are free for non-commercial use.
Another key factor is the appropriate selection of emotional stimuli, which guarantees that experimental tasks are appropriate for investigating emotional processing in learning and memory. Furthermore, the kind of stimulus influences the time of stimulus exposure, particularly in experimental tasks requiring emotion induction.

Self-assessment Techniques

Individual emotional states may be measured using a variety of self-assessment approaches. The Self-Assessment Manikin (SAM), the Semantic Differential (SD) scale, and the Likert scale are the most often utilized methodologies. The SAM is a nonverbal pictorial assessment approach for valence, arousal, and dominance that directly analyzes emotional reactions to emotional stimuli.
The SD scale is made up of a collection of bipolar adjective pairs that are used to rate picture stimuli subjectively. Participants may score their own emotional reactions using Likert's "x-point" scale. The Positive and Negative Affect Schedule (PANAS) is a suggested approach if a researcher does not want to examine various emotional states but rather two fundamental characteristics of emotion (positive and negative valence). Thus, choosing the best self-assessment approach is a vital aspect of the experimental design, but it may also be a daunting undertaking.
Several emoticon balls of different colors expressing different types of emotions
Several emoticon balls of different colors expressing different types of emotions

Neurocognitive Research Design

To achieve particular research aims in the neuroscience of cognition and emotion, proper task designs are required. This requires consideration of environmental elements, ethical considerations, memory paradigms, cognitive task complexity, and emotional induction task intensity.
Numerous neuroimaging studies have shown that emotions affect memory processes such as memory encoding, memory consolidation, and memory retrieval. Emotional attention and motivation may explain why emotional material has privileged information processing.
Emotion has a "pop-out" effect that raises attention while also promoting a bottom-up innate influence that improves awareness. Significant emotional modulation impacts amygdala memory consolidation, and emotional content seems to modulate memory encoding and retrieval in the PFC, resulting in slow rates of memory slip followed by accurate recall.
Furthermore, cognitive and emotional interactions seem to influence other memory-related CNS areas, including the frontal, posterior parietal, and visual cortices. The latter are engaged in attentional control, association information, and visual information processing, in that order. As a result, as explained in Panksepp's paradigm of brain functioning, higher-level cognitive activities such as learning and memory seem to be typically driven by emotion.

People Also Ask

What Is The Strongest Emotion?

Fear is one of the most potent emotions. Fear may overpower even the most powerful aspects of our intellect because emotions are significantly more powerful than ideas.

What Is A Positive Emotion?

Positive emotions, such as joy, curiosity, satisfaction, love, and the like, are certainly present in people's lives during times when they are not tormented by negative emotions, such as worry, melancholy, wrath, and despair.

How Do I Identify My Emotions?

How to Recognize Your Emotional State Consider how you feel right now: do you feel good, and does it feel nice to be in your shoes? Or maybe it's not that pleasant? On a scale of 1-5, rate your "emotional valence".

What Is Difference Between Emotion And Feeling?

Feelings and emotions vary fundamentally in that feelings are experienced consciously, while emotions emerge either consciously or unconsciously. Some individuals may go years, if not a lifetime, without comprehending the depths of their feelings.


Significant evidence suggests that experiences associated with emotions are recalled more vividly, correctly, and for longer lengths of time than neutral ones. Emotional memory enhancement appears to involve the integration of cognitive and emotional neural networks, in which activation of the amygdala improves processing of emotionally arousing stimuli while also modulating enhanced memory consolidation in collaboration with other memory-related brain regions, including the amygdala, hippocampus, and MTL, as well as the visual, frontal, and parietal cortices.
Similarly, activation of the PFC improves cognitive tasks such as strategic and semantic thinking, which influence WM and encourage the formation of LTM.
Previous research has generally employed standardized emotional visual or auditory stimuli such as photos, phrases, facial expressions, and video clips, which were often based on the IAPS, ANEW, and POFA databases.
Further research has usually focused on how people remember emotional cues in controlled laboratory conditions (intentional or inadvertent episodic memory paradigm). There is little objective research to our knowledge that uses brain-mapping methods to investigate the semantic memory of learning materials (using subject matter) in the educational environment.
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Suleman Shah

Suleman Shah

Suleman Shah is a researcher and freelance writer. As a researcher, he has worked with MNS University of Agriculture, Multan (Pakistan) and Texas A & M University (USA). He regularly writes science articles and blogs for science news website and open access publishers OA Publishing London and Scientific Times. He loves to keep himself updated on scientific developments and convert these developments into everyday language to update the readers about the developments in the scientific era. His primary research focus is Plant sciences, and he contributed to this field by publishing his research in scientific journals and presenting his work at many Conferences. Shah graduated from the University of Agriculture Faisalabad (Pakistan) and started his professional carrier with Jaffer Agro Services and later with the Agriculture Department of the Government of Pakistan. His research interest compelled and attracted him to proceed with his carrier in Plant sciences research. So, he started his Ph.D. in Soil Science at MNS University of Agriculture Multan (Pakistan). Later, he started working as a visiting scholar with Texas A&M University (USA). Shah’s experience with big Open Excess publishers like Springers, Frontiers, MDPI, etc., testified to his belief in Open Access as a barrier-removing mechanism between researchers and the readers of their research. Shah believes that Open Access is revolutionizing the publication process and benefitting research in all fields.
Han Ju

Han Ju

Hello! I'm Han Ju, the heart behind World Wide Journals. My life is a unique tapestry woven from the threads of news, spirituality, and science, enriched by melodies from my guitar. Raised amidst tales of the ancient and the arcane, I developed a keen eye for the stories that truly matter. Through my work, I seek to bridge the seen with the unseen, marrying the rigor of science with the depth of spirituality. Each article at World Wide Journals is a piece of this ongoing quest, blending analysis with personal reflection. Whether exploring quantum frontiers or strumming chords under the stars, my aim is to inspire and provoke thought, inviting you into a world where every discovery is a note in the grand symphony of existence. Welcome aboard this journey of insight and exploration, where curiosity leads and music guides.
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