Psychology Study Notes PDF

Summary

These notes cover research methods in psychology, including different types of variables, hypotheses, and various research designs, such as naturalistic observations, case studies, experimental, and correlational studies. The notes also discuss the advantages and disadvantages of each method, and the importance of ethical considerations in psychological research.

Full Transcript

WEEK 3 - Research Methods
2 types of variables
- Variable -> a quality that differs and can take different values for different people
- Independent variable -> a variable that is expected to influence the other variable
(Etc. experimenter manipulates to see effects on the independent variable)
- Dependent variable -> the variable that is influenced by the independent variable (i.e,
always what we measure)
- Manipulation

Hypothesis
Is the hypothesis testable?
○ Ex. People who laugh more have lower levels of anxiety than people who
laugh less

Research designs
- Naturalistic observations
- Case studies
- Experimental
- Correlational

Naturalistic observations
Studying behaviours in “real world” settings as they naturally occur with no attempt to
study (Ex.

Advantages:
○ We can understand a range of behaviours as they naturally occur
○ We can measure “true” behaviours
○ Avoids social desirability bias
○ High in external validity

Disadvantages:
○ Slow progress
○ Low in internal validity (Unable to make cause and effect conclusions)
○ If people are aware of being observed

Case Studies

In-depth examination of the life of one person
Interviewing the person or people that know them, analysing writings, etc

Advantages:
○ Researchers are able to find out about personality in great detail
○ Formulate a general hypothesis that can be tested on a larger sample
○ In-depth knowledge about a rare phenomena
 Disadvantages:
○ Results can never be generalised
○ Cannot establish causality
*The only research that can create cause and affect studies are experimental studies

Experimental methods

Used to determine causality -> whether one variable (independent variable) causes
another (dependent) variable
I.e whether a drug (independent) variable causes memory enhancement (dependent
variable)
Placebo effect - Whenever there's a change in someone's behaviour simply because
someone is expecting a change (Latin phrase: “I shall please”) - (EXPECTATION OF
GETTING BETTER)

Experimental group (drug) (testing effects)
Control group (no drug) - no manipulation (to see the effect that hasn’t been manipulated)
Placebo control group sugar pill (Placebo) - Placebo effect (to make sure the study is not
influenced by the placebo effect

Nocebo effect -> “to harm” (EXPECTATION OF HARM)
Harm resulting from the mere expectation of harm
(Opposite of placebo effect)

Between-subject Design
Needs to meet 2 key requirements:
○ 1. Random assignment of participants to conditions -> Manipulation across
groups
○ 2. Manipulation of an independent variable -> Random assignment
(randomization)

Does a drug (Independent variable) cause memory enhancement (dependent variable)?

Within-Subject Design
2 Key requirements:
○ 1. Manipulation of independent variable(s) -> manipulate within group
○ 2. Ensuring equality between participants in the different experimental
conditions -> counterbalancing

Experimental methods
Random selection vs. random assignment

Blind and double-blind studies
Blind -> Being unaware whether one is in the experimental or control group
○ Avoid the placebo effect
Double-blind -> neither researchers nor participants are aware of who is in the
experimental or control group
 Experimenter expectancy effect or rosenthal effect
○ Unintentional (When the tester unintentionally influences the study)
○ Confirmation bias

Experimental methods cont’d

Advantage:
○ Can establish relationships between variables

Disadvantages:
○ Cannot identify relationships between variables as they occur naturally in
everyday life - Cannot study behaviours as they naturally happen from a
participant because of changes in setting, etc
○ May be impractical or unethical in some cases
○ Demand characteristics (Participants guess what the goal of the study)
Telling participants a Cover story in order for the participant not to
know what the goal of the study is
“Distractor” tasks or “filler”

Correlational studies
Determining whether there is a relationship between two variables, without
manipulation/intervening in any way
Examines the relationship between variables as they occur naturally
Correlation coefficient (-1 to +1)
0 means no relationship exists

Positive correlation

- As self-esteem decreases, happiness decreases
- As self esteem increases, happiness increases

Negative correlation
- As self esteem increases, happiness decreases
- As self-esteem decreases, happiness decreases

Summary of Correlational studies

Is there a relationship between self-esteem and happiness?
- Strong “+” relationship between self esteem and happiness
- Moderate “+” relationship between self esteem and happiness
- Weak “-” relationship between self esteem and happiness
Absolute value is the number

Correlation studies

Advantages:
○ Examines the relationship between variables as they occur naturally (no
manipulation involved)
 Disadvantages
○ Not designed to identify causal relationships (Directionality problem; third
variable problem)

*correlation does not indicate causation
When to use which method?

Each design has strengths and weaknesses that make it more/less suitable for
specific research questions
The research design choice depends on the research question and the goals of the
research
Strength of one design may be the weakness of another
Provide complementary methods for exploring human personality

Class activity
Research question: Are individuals with AUD less happy compared to individuals without
AUD
Goal: To generalise our findings to all who have AUD
YOU CAN USE CORRELATIONAL STUDIES TO DETERMINE THIS

Ethical concerns

REB - Research Ethics Board
Must weigh scientific knowledge over potential harm to subjects
Informed consent
○ Informed consent gives:
Duration of the study
Potential risks and discomfort
Volunteer participation and right to withdraw
Debriefing - is a process which the researchers tell the participant exactly what
happened
Decception
○ Deception is justified only when:
Can’t perform without the deception
Use of deception doesn't negatively affect the rights of the participant
Research does not involve a medical or therapeutic intervention
*Debriefing is emphasised when a study uses deception

Statistics
Descriptive statistics
Inferential statistics

Descriptive statistics
Describe data
Central tendency -> measure of the “central” scores in a dataset (where the group
tends to cluster)
Mean (Average) number of participants (5):
 ○ 78 + 110 + 78 + 100 + 94 / 5 = (92)
Median (which number falls in the middle):
○ 78 78 94 100 110 (94)
Mode:
○ 78

Descriptive statistics

FIRST PIC: MEAN

SECOND AND THIRD PIC: MEDIAN OR MODE

OUTLIERS SCORE OUTSIDE OF THE OTHER SCORES

Descriptive statistics cont’d

Variability
Range -> difference between the highest and the lowest scores
Standard deviation -> the average amount that an individual data point differs from
the mean

Inferential statistics (How confident we can be to generalize everyone in the
population)

Statistical significance -> the probability of obtaining our finding merely by chance is
small
Individuals with ASD have more cortical folding than individuals with ADHD (p nerve cell specialised for communication
○ 86,000 neurons in the brain
Intercellular communication -> Each neuron makes tens of thousands of connections
with other neurons
○ 160 trillion connections in the brain

The subcomponents of the neurons
Cell body (soma) -> contains the nucleus
Nucleus -> manufactures proteins
Dendrites -> receive information (or signals) from other neurons, & pass it to the cell
body
Axons -> sends the information (or signal) to other neurons

Steps of Signal transmission
Spherical sacs containing neurotransmitters chemical messengers neuron use to communicate with each other

3. Axon terminals release neurotransmitters into a gap (synapse) through which
information is exchanged between neurons (i.e, received by receptors of the
dendrites of nearby neurons)
*VIDEO on steps of signal transmission: 2 minute neuroscience synaptic transmission

Reuptake -> a means of recycling neurotransmitters
Receptor sites -> Locations that uniquely recognize a neurotransmitter
(Receptor sites are specialised only certain types of neurotransmitters)

Neurotransmitters
*The most common (in CNS)
Glutamate
○ Excites neurons (increases the odds that they will communicate with other
neurons)
○ Associated with enhanced learning & memory
○ However, if too elevated -> may continue to psychological disorders (i.e,
schizophrenia)
GABA (Gamma-aminobutyric acids)
○ Inhabits neurons (decreasing neural activity)
○ Certain drugs bind to GABA to treat anxiety, insomnia, depression, & epilepsy
Neurotransmitters cont’d
Monoamine neurotransmitters
○ Norepinephrine
○ Dopamine
Motivation & rewarding experiences that occur when we seek out or
anticipate goals
○ Serotonin
Ex. Psychoactive medication (drugs)

Myelin Sheath
Myelin Sheaths speed the transmission of electrical signal down the length of the
axon
Nodes -> gaps along the axons (electrical signal does not stop between the nodes)
Myelin sheaths are created by oligodendrocytes which are a type of glial cells
○ Which are a type of glial cells
Damage to myelin can disrupt the efficiency of signal from travelling down the axon
-> physical or emotional symptoms (i.e, multiple sclerosis)

How much of our brain do we use?
The 10% myth
Neuroimaging studies -> All brain regions become active on brain scans at one time
or another:
○ When engaging in different activities & generating different thoughts, feelings,
or perceptions
○ Even at rest, brain activity continues (i.e., not engaging in an activity)
Losses of small regions of certain parts of the brain can cause permanent losses of
functions or show subtle changes in behaviour

Major Structures of The Brain
Different brain regions serve different functions
○ Which interact with one another to generate our thoughts, feelings &
behaviour
The brain is a highly interconnected web of networks and circuits

Cerebral cortex
Outermost layer of the brain
Gyrus (fold) & sulcus (groove)
Folds are not random!
Every healthy human brain has similar folds & grooves on the cortex
Specialised functioning -> analyses sensory information & higher brain functions

Cerebral Hemisphere
2 hemispheres:
○ Right hemisphere
○ Left hemisphere
Corpus callosum -> large bundle of fibres connecting the 2 cerebral hemispheres
Lateralization -> cognitive functions that rely more on the hemisphere than the other
Brain produces a crossing over for movement
The cerebral cortex
4 lobes:
○ 1. Frontal lobe
○ 2. Parietal lobe
○ 3. Temporal lobe
○ 4. Occipital lobe

Frontal lobe
Performs executive function that coordinates other brain areas (motor planning,
language, decision making, reasoning, judgement)
Central Sulcus -> sulcus that separates the frontal lobe from parietal lobe
Motor cortex -> responsible for voluntary body movement
Prefrontal cortex -> responsible for thinking, planning, language
Broca’s area -> responsible for speech production

Parietal lobe

Touch & perception
Primary sensory cortex -> sensitive to touch (pressure, pain, temperature); receives
information about sensations
Spatial perception -> Track objects’ locations and shapes, guides our attention when
we want to act
Hemispatial neglect

Temporal & occipital lobes
Temporal lobe: hearing, understanding language, & memory
Auditory cortex - allows us to recognize words and the sounds
Wernicke’s area -> responsible for understanding speech
Fusiform face area
Occipital lobe contains the visual cortex

Subcortex Structures
Basal ganglia -> help to control movement
Limbic system -> “emotional centre” of the brain
○ Thalamus
○ Hypothalamus
○ Amygdala
○ Hippocampus

Limbic system
Thalamus -> sensory relay station
Hypothalamus:
○ Responsible for regulating and maintaining bodily states by influencing
hormone levels
○ Oversees hormone release and autonomic nervous system
○ Plays an important role in motivational behaviour (helping to regular hunger &
thirst)
 Amygdala -> responsible to modulate memories based on feelings
○ Pays attention to emotionally impactful stimuli and helps us remember wheat
triggered our emotions
○ Fear is the most studied emotion
○ Hippocampus -> responsible for conscious memories for facts, events, and
spatial memory

Cerebellum
“Little brain”
Our sense of balance
Helps us coordinate movement
Helps us learn motor skills

Brainstem
Contains 3 parts:
○ Midbrain
○ Pons
○ Medulla

Brainstem: Midbrain
Movement
Tracking of visual stimuli
Reflexes triggered by sound

Brainstem: pons
Triggering dreams
Connects the cortex to the cerebellum

Brainstem: medulla
Regulates basic vital functions:
○ Heartbeat
○ Breathing
○ Etc.
Controls nausea and vomiting
Serious damage to the medulla can cause brain death

Grey matter and white matter
Gray matter (or cerebral cortex): contains cell bodies and dendrites of neurons
(appear darker)
White matter: contains axons and myelinated sheaths (appears lighter)

Protection against injury
Cerebrospinal fluid (CSF):
○ Cushions the brain against injury
○ Contained in the cerebral ventricles
Meninges:
○ Thin layer of membranes around the brain and spinal cord
Neuroplasticity
Ability of the brain to change over time
○ In response to learning, treatment, or damage
Possible ways neuroplasticity can occur:
○ Creating new synapses -> synaptogenesis
○ Strengthening existing synaptic connections
○ Structural neuroplasticity -> change in the shape of neurons, or number of
dendrites

Neuroplasticity cont’d
Synaptogenesis -> formation new synapses
Pruning (synaptic pruning) -> death of neurons and retraction of axons to remove
connections that are not useful
○ Fine-tuning of neural connections -> “use it or lose it” notion during early
childhood
Pruning streamlines neural organisation, enhancing communication between brain
regions
Myelination -> axons are insulated by myelin sheaths

Neuroimaging techniques
Different neuroimaging techniques can be used to study:
○ Brain structure and anatomy
○ Brain activity
○ Brain connectivity

MRI scans
Advantage: Non-invasive procedure
Brain structure and brain function (FMRI) can be studied
Disadvantage:
○ Very loud
○ Enclosed space

PET scans
Measures brain activity
Radioactive substance is injected
Disadvantage: invasive procedure due to radioactive substance

Brain stimulation techniques
Deep brain stimulation (DBS) -> neurosurgical procedure that implants electrodes
within the brain to provide direct electrical stimulation
Transcranial Magnetic Stimulation (TMS) -> Strong magnetic fields applied to the
skull to enhance or interrupt brain function
○ Non-invasive

Behavioural Genetics methods
A scientific approach which examines the influence of nature and nurture on
psychological traits
 Heritability -> percentage of variability in a trait across individuals that is the result of
genes
Phenotypic variance -> observed individual differences (i.e., height or personality)
Genotypic variance -> individual differences in total collection of genes possessed by
each one of us

Behavioural Genetics methods cont’d
Nature-nurture debate
Teasing apart the contribution of genes and the environment:
○ Family studies
○ Twin studies
○ Adoption studies

Family studies
If a trait is highly heritable … family members with greater genetic relatedness should
be more similar to each other than family members who are less closely genetically
related
But.. family members also share the same environment
Thus, findings from family studies are never definitive

Twin Studies
Two types of twins: Monozygotic (MZ) and dizygotic (DZ)
Estimates heritability by examining whether identical twins are more similar to each
other, than fraternal twins are, in any personality trait or physical characteristic
If identical twins are more similar than fraternal twins, this provides evidence of
heritability

Adoption studies
Examines environmental influences
Examines genetic influences