Sensation and perception

Question 1

What are our senses

Answer 1

vision hearing, touch, smell, taste, temperature, pain, acceleration & body composition

Question 2

what is the function of the vision perceptual system

Answer 2

Object identification/recognition & navigation & motion perception

Question 3

what is the function of the visual perceptual system

Answer 3

Object identification/ recognition & object localisation

Question 4

what is the function of the touch perceptual system

Answer 4

Object identification/ recognition & pain (detection of tissue damage)

Question 4

what is the function of the touch perceptual system

Answer 4

Object identification/ recognition & pain (detection of tissue damage)

Question 5

what is the function of the smell & taste perceptual system

Answer 5

chemical detection/ identification & nutrition & poison avoidance

Question 6

what is a distal stimulus

Answer 6

physical object in environment

Question 7

what is a proximal stimulus

Answer 7

a representation of the distal stimulus

Question 8

what is a receptor process

Answer 8

the transformation of environmental physical energy into electrical energy (aka transduction)

Question 9

what cells are responsible for carrying out transduction

Answer 9

receptor cells

Question 10

how does transduction occur in vision

Answer 10

receptors in the retina transform light into electrical impulses

Question 11

how does transduction occur in audition

Answer 11

receptors in the inner ear transform sound into electrical impulses

Question 12

what is neural processing

Answer 12

the transmission of electrical signals from one neuron to another

Question 13

what is perception

Answer 13

conscious sensory experience

Question 14

what is recognition

Answer 14

placing an object in a category

Question 15

what is action

Answer 15

movement of the eyes, head and body

Question 16

what is top down processing

Answer 16

processing based on prior knowledge/experience

Question 17

what is processing based on incoming sensory information known as

Answer 17

bottom-up processing

Question 18

does perception require top down processing, bottom-up processing, both or neither

Answer 18

it requires both top down and bottom up processing

Question 19

what is top down processing important for (in general)

Answer 19

helping simplify complex perceptual processes

Question 20

imaging is a physiological way of recording brain activity

Name 3 types of imaging

Answer 20

• fMRI
• MEG
• EEG
• PET

Question 21

name 3 phsyiological ways of studying whats going on in the brain during perception

Answer 21

• studying anatomy
• recording brain activity
• micro stimulation
• lesioning & TMS

Question 22

What are psychological approaches to studying perception useful for

Answer 22

measures the relationship between stimulus & perception

Question 23

what is an absolute threshold

Answer 23

the smallest magnitude we can perceive

Question 24

what is difference/discrimination

1

Answer 24

the smallest difference we can percieve relative to the baselines level (this is not a constant value)

Question 25

what are the two main approaches to studying perception

1

Answer 25

physiological & psychological

Question 26

what is psychophysics

1

Answer 26

using carefully controlled experiments to test perceptual performance

Question 27

what is light

2

Answer 27

form of electromagnetic energy

Question 28

what is light physically defined by

Answer 28

wavelength and intensity

Question 29

what is light physiologically defined by

Answer 29

colour and brightness

Question 30

how large is the pupil

Answer 30

between 2-9mm diameter

Question 31

how much focusing power does the cornea have

Answer 31

80%

Question 32

how much focusing power does the lens have

Answer 32

20%, but can change shape due to action of cilliary muscles

Question 33

how does the eye accomodate to focus on close objects

Answer 33

lens becomes fatter (blurs far objects)

Question 34

how does the eye accomodate to focus on far objects

Answer 34

lens becomes thinner (blurs near objects)

Question 35

what is myopia

Answer 35

nearsightedness

Question 36

what is farsightedness

Answer 36

hyperopia

Question 37

what is the retina

Answer 37

a thin photosensitive layer at the back of the eye

Question 38

what are photoreceptors and what do they carry out

Answer 38

they are light sensitive cells and they carry out transduction

Question 39

how many rod cells do we have and when are they most useful

Answer 39

120 million. Most useful at night & respond well to dim

Question 40

what kind of vision do rod cells produce

Answer 40

monochromatic

Question 41

Both cone and rod cells have mesopic sensitivity

what kind of sensitvity is unique to rod cells & unique to cone cells

Answer 41

scoptic - unique to rod cells
photopic- unique to cone cells

Question 42

what is purkinje shift

Answer 42

at night, red looks darker than green

Question 43

how many cone cells do we have and when do they work best

Answer 43

6 mllion, work best in daylight, not as sensitive as rods

Question 44

in what order does light pass the cells in the eye

Answer 44

1. ganglion
2. amacrine
3. bipolar
4. horizontal
5. cone cells
6. rod cells
7. pigment epithelium

Question 45

what are the 3 types of cone and to what wavelengths of light do they respond

Answer 45

Red (long wavelengths)
Green (medium wavelengths)
Blue (short wavelengths)

Question 46

after 20 minutes in darkness, what happens to our eye sensitivity?

Answer 46

increased by around 100,000x greater than sensitivty in light

Question 47

do rods or cones have greater acuity and why

Answer 47

cones have greater acuity as they have lower convergence (6 cones per 1 ganglion cell ) (120 rods per 1 ganglion cell)

Question 48

what kind of cells are in the fovea and what does this mean for its acuity

Answer 48

only cone cells therefore fovea has the highest acuity

Question 49

when looking directly at an image, where does it fall in the eye

Answer 49

the fovea

Question 50

what is the ratio of photoreceptors to ganglion cells

3

Answer 50

126:1, far fewer ganglion cells

Question 51

what do ganglion cells do

Answer 51

condense raw info from photoreceptors & aim to extract important info from retinal image

Question 52

what happens during a single cell recording

Answer 52

The stimulus is presented to the animal
The activity is recorded from the ganglion cell
The activity is measured over time

Question 53

what are experimenters trying to find when they do a single cell recording on a ganglion cell

Answer 53

a stimulus that changes the activity of the ganglion cell from baseline

Question 54

what does an increase in response for a ganglion cell mean

Answer 54

an increase in frequency of action potentials

Question 55

what is a receptive field

Answer 55

the area on the retina which when stimulated by light, elicits a change in the firing rate of the cell

Question 56

what are the two regions of a receptive field

Answer 56

one leads to an excitatory response, the other an inhibitory response

Question 57

what is lateral inhibition

Answer 57

inhibition transmitted across the retina by horizontal & amacrine cells

Question 58

what do the receptive fields of all ganglion cells cover

Answer 58

together they cover the whole visual field

Question 59

do receptive fields of neighbouring ganglion cells overlap

Answer 59

yes

Question 60

are photoreceptors part of the receptive field of only one ganglion cell

Answer 60

no they are part of the receptive field of multiple ganglion cells

Question 61

what are ganglion cells ideal at detecting

Answer 61

spots of light & edges, unable to detect orientation of bars of light

Question 62

if a receptive field has an on-centre, off-surround, what type of light source would cause the greatest excitatory response

Answer 62

stimulation of the On centre alone

Question 63

what is the helmholtz illusion explained by

Answer 63

lateral inhibition. When the receptive field is at the intersection, more light falls on the off region so it receives more inhibition and the cell fires less

Question 64

what do receptive field sizes vary with

Answer 64

Eccentricity: The distance between the receptive field center of a given neuron and the center of vision

Question 65

what forms the optic nerve

4

Answer 65

bundling of ganglion cells

Question 66

what is the optic chiasm

Answer 66

a cross over point

Question 67

what is the optic tract

Answer 67

what the optic nerve becomes beyond the optic chiasm

Question 68

what does the optic tract feed into

Answer 68

the Lateral Geniculeate nucleus (LGN)

Question 69

what kind of structure is the Lateral geniculate nucleus

Answer 69

bilateral (one in each hemisphere)

Question 70

what is the LGN ideal in doing

Answer 70

detecting spots of light & edges, not able to detect orientation of bars & edges

Question 71

where does V1(aka primary visual cortex aka striate cortex) recieve its input from

Answer 71

LGN

Question 72

what is the primary visual cortex also known as

Answer 72

V1/Striate cortex

Question 73

what do V1 cells respond best to

Answer 73

lines of a particular orientation, prefers them to spots

Question 74

What does retinotopic mapping mean

Answer 74

forms a map of the entity/object falling on the retina

Question 75

what is cortical magnification and what does it state about the fovea

Answer 75

Amount of cortex devoted to representing each part of the retinal field is distorted
Fovea represented by large area of cortex

Question 76

what are the cells in the LGN like

Answer 76

monocular - respond to input from left or right eye but not both

Question 77

what are 80% of the cells in V1 like

Answer 77

binocular - respond to input from both eyes

Question 78

what is ocular dominance

Answer 78

the fact that most ocular cells respond better to one eye than the other

Question 79

what are the 3 different types of receptive fields in V1

hint: the naming progression is logical

Answer 79

simple cells, complex cells, hypercomplex cells

Question 80

what is special about simple cells

Answer 80

they all have a prefered orientation

Question 81

what are edge detectors

Answer 81

simple cells with one excitatory and one inhibitory region

Question 82

what is special about complex cells

Answer 82

respond best to moving oriented bars and edges in a particular direction of movement

Question 83

what is special about complex cells

Answer 83

respond best to moving oriented bars and edges in a particular direction of movement

Question 84

what do hypercomplex (aka end-stopped) cells respond best to

Answer 84

bars of particular orientation
Moving in a particular direction
Particular length

Question 85

what is the ‘what ‘ stream important for

Answer 85

discriminating and recognising objects

Question 86

where does the ‘what’ stream travel

Answer 86

ventrally to inferotemporal cortex

Question 87

what is the ‘where’ stream important for

Answer 87

determining where an object is and how to act upon it

Question 88

where does the ‘where’ stream travel

Answer 88

dorsally to posterior parietal cortex

Question 89

what lesion study provides evidence for the what and wear streams

Answer 89

monkey lesion study

Question 90

what neuropsychological evidence is there for the what and where stream

Answer 90

visual form agnosia - damage to what stream
optic ataxia- damage to where stream

Question 90

are the what and where streams completely seperate

Answer 90

no, there are many connections between them

Question 91

in an experiment showcasing babies depth perception, what were the results

Answer 91

all the babies went to their mothers at the shallow end of the pool
none of the babies went to their mothers at the deep end of the pool

Question 92

what do oculomotor cues depend on

Answer 92

our ability to sense the position of our eyes and tension in our eye muscles

Question 93

what is convergence in reference to oculomotor cues

Answer 93

eye muscles causing your eyes to look inward

Question 94

what is accommodation in reference to oculomotor cues

Answer 94

lens bulging to focus on a near object

Question 95

when are cues effective

Answer 95

at a distance closer than 5 feet

Question 96

what are pictorial cues

Answer 96

monocular cues - can be depicted in a still image and do not require viewing with both eyes

Question 97

what is an example of a pictorial cue

Answer 97

Watching TV, photos, paintings

Question 98

what is size constancy

2 acceptable definitions

Answer 98

The retinal size of objects gets smaller as they get further away.

OR
The retinal size of objects gets larger as they get closer

Question 99

As objects get further away, they get nearer the horizon - what is this an example of

Answer 99

relative height

Question 100

what does emmets law state

Answer 100

objects that generate retinal images of the same size will look different in physical size if they appear to be located at different distances

(think of a far away car compared to a close)

Question 101

why do distant objects appear less sharp

Answer 101

there is more air and particles to look through (atmospheric perspective)

Question 102

what is an example of linear perspective

Answer 102

parallel lines converging as the get further away

Question 103

Is the retina curved or straight

Answer 103

curved

Question 104

what is motion parallax an example of

Answer 104

a movement-produced cue

Question 105

what is motion parallax

Answer 105

observer moves relative to a 3-d scene, nearby objects appear to move rapidly whereas far objects appear to move slowly

Question 106

what is binocular disparity/ stereopsis

Answer 106

a cue depending on two eyes & the fact that out eyes see the world from slightly different positions

Question 107

What is a corresponding retinal point

Answer 107

for every point on one retina, there is a corresponding point on the other retina

Question 108

what is a non-corresponding retinal point

Answer 108

points on each retina that do not correspond to each other

Question 109

as an object is moved further away is there more or less binocular disparity

Answer 109

less binocular disparity

Question 110

at what point is there no disparity between the location that the stimulus falls on in both retina

Answer 110

the fixation point, as that is where both fovea are focused

Question 111

what are some examples of things that show depth

Answer 111

virtual reality
stereograph cameras
shutter glasses

Question 112

what are some examples of other species of mammal that have trichromatic vision

Answer 112

catarrhine monkeys
platyrrhine monkeys (only the females)

Question 113

some tropical fish and birds have 4 types of colour vision, what is this called

Answer 113

tetrachromy

Question 114

what kind of animal is pentachromatic

Answer 114

pigeons

Question 115

What does scene segmentation mean (colour)

Answer 115

variations in colour often signal object boundaries

Question 116

what is perceptual organisation

Answer 116

our visual systems using colour to group elements in a scene

Question 117

what are the psychological attributes of light

Answer 117

hue (colour), brightness (perceived intensity) & saturation (how much colour)

Question 118

what is the difference between pink and red

Answer 118

saturation

Question 119

what is (usually) the difference between dark and light blue

Answer 119

intensity

Question 120

what is the difference between red and blue

Answer 120

hue (wavelength)

Question 121

What does the Young-helmholtz trichromatic theory hypothesise

Answer 121

that there are 3 diff receptors that respond best to diff wavelengths of light (red, green blue)

Question 122

what are the rough numbers for short, medium and long wavelengths

Answer 122

short-420
medium- 530
long-580

Question 123

what evidence is there to support the trichromatic theory of evoloution

Answer 123

3 primary colours combine to produce all possible colours
3 forms of dichromatism (colour blindness)

Question 124

what is the opponent process theory of colour

Answer 124

that there are 3 processes which are opponents in nature Red-green
Yellow-blue
Black white

Question 125

why did Hering come up with the opponent process theory of colour

Answer 125

when asking people to pick out ‘pure’ colours from a large sample, people chose red blue green AND yellow + unclear how trichromacy could explain after images

Question 126

what evidence is there for opponent process theory

Answer 126

Non existence of certain colour combos (e.g blueish yellow)
Colour confusions in colour blindness (red and green)
Complementary afterimages
Colour context effects

Question 127

at what level is the tricromacy theory of colour correct

Answer 127

at the level of the cones

Question 128

at what level is the opponent process theory of colour perception correct

Answer 128

at the level of the LGN & cortical cells

Question 129

What is an Anopia and what are the three types

Answer 129

insensitvity to L,M or S wavelengths of light due to missing a type of cone
protanopia- missing L cone
deuteranopia- missing M cone
Tritanopia- missing S cone

Question 130

Only one of the 3 Anopias is more prominent than females than males, which is it

Answer 130

tritanopia

Question 131

Only one of the 3 Anopias is more prominent than females than males, which is it

Answer 131

tritanopia

Question 132

What are anomalies (in reference to colour perception) and what are the two types

Answer 132

missalignment of L or M in trichromats
Protoanomaly: L-cone pigment deficiency:
Deuteranomaly: M-cone pigment deficiency:

Question 133

which colour vision theory does colour blindness support

Answer 133

both, anopias point to 3 cone types

Question 134

Are there any animals that lack motion perception

Answer 134

No, all animals have some degree of motion detection/ perception

Question 135

what do random dot kinematograms (RDK’s) suggest

Answer 135

we do not need to be able to recognise an object in order to see it move

Question 136

What is the correspondence problem highlighted by

Answer 136

random dot kinematograms,

Question 137

when do we detect movement

Answer 137

when the eyes are stationary and an image moves across the retina

Question 138

what does a reichardt detector detect

Answer 138

movement of a specified direction and speed

Question 139

in regards to movement detection, what do excitation and inhibition interact to create

Answer 139

a cell that only responds to movement from right to left

Question 140

for a reichardt detector, if something moves in the proper direction, what happens

Answer 140

the two signals meet at the same time and this causes a strong response

Question 141

for a reichardt detector, when something moves in the wrong direction, what happens

Answer 141

there is no response

Question 142

for a reichardt detector, when something is moving too fast

Answer 142

the timing is off so there is no response

Question 143

in a reichardt detector , what happens if you make a bigger separation between the two detectors

Answer 143

they detect faster motion as the changing of the detectors measures different speeds

Question 144

what does velocity transposition show

Answer 144

two images moving across the visual field at diff speeds can be perceived moving at the same time

Question 145

what things affect the threshold potential for movement detection

Answer 145

the object and its surroundings

Question 146

what is the requirement for a cat in a larger cage to be percieved as mocing at the same speed as a rat in a smaller cage

Answer 146

the cat has to move faster

Question 147

what things give evidence to helmholtz outflow theory

Answer 147

afterimages when we move our eyes
world moves when we passively wobble eyes

Question 148

what is ‘Afterimages move when we move our eyes’ an example of

Answer 148

eye muscle movement signal, no retinal movement

Question 149

what is ‘World moves when we passively wobble our eyes’ an example of

Answer 149

retinal movement, no eye muscle movement signal

Question 150

what is apparent/stroboscopic movement

Answer 150

Illusion of movement between two lights by flashing one on & off, waiting 40-200 ms, then flashing other light on & off
(think of Harpers play)

Question 151

when two lights are shone 30–60 msec apart, when movement is this an example of

Answer 151

partial movement

Question 152

when two lights are shone Around 60 msec apart, when movement is this an example of

Answer 152

optimum movement

Question 153

when two lights are shone 60-200 msec apart, when movement is this an example of

Answer 153

beta & phi movement (phenomenon)

Question 154

what is beta movement

Answer 154

movement appears to occur between lights but it is difficult to actually perceive an object moving across the space between them

(literally just the opposite of phi movement)

Question 155

what is phi movement

Answer 155

perceive an object between two lights being shone 60-200 msec apart

Question 156

when two lights are shone Above 200msec, when movement is this an example of

Answer 156

there is no movement, they are successive

Question 157

what is induced movement

Answer 157

surrounding a spot with another object and moving said object

Question 158

what is autokinetic movement

Answer 158

Turn off all room lights, when surrounding framework is not visible, small stationary light appears to move, usually in erratic path

Question 159

what are the characteristics of a soundwave

Answer 159

frequency, amplitude and complexity

Question 160

what do long wavelengths and short wavelengths mean frequency wise

Answer 160

short wavelegnth = high frequency = high musical note
long wavelegnth = low frequency = low musical note

Question 161

what is frequency perceived as

Answer 161

pitch

Question 162

what do high and low amplitude mean and what is amplitude percieved as

Answer 162

perceived as loudness
high = loud
low = quiet

Question 163

what is complexity percieved as for a soundwave

Answer 163

timbre/sound quality

Question 164

what does fundamental frequency mean

Answer 164

the wavelength of the longest component determines the pitch of the sound

Question 165

what do harmoics determine

Answer 165

sound quality/timbre

Question 166

what is the vestibular system important for

Answer 166

balance

Question 167

what structures is the vestibular system made up of

Answer 167

semicircular canal, endolymph, cupula & nerves

Question 168

what happens in the middle and inner ear

Answer 168

eardrum vibrates, causing ossicles to move,

Question 169

why do we sound different when our voices are being recorded/played back to us

Answer 169

skull and jaw vibrate when we move so we hear our own voice conducted through the bones of our skull

Question 170

what vibrates to produce a wave in the basilar membrane

Answer 170

oval window

Question 171

what is the shape of the wave in the basilar membrane dependent on

Answer 171

frequency of the sound

Question 172

the ear is a frequency analyser, what does this mean

Answer 172

based on how sound waves travel in the ear, it determines the frequency of the sound and allows us to hear the correct pitch

Question 173

what structures do the cochlear have which detect vibrations in the basilar membrane

Answer 173

hair cells

Question 174

when do hair cells change their firing rate

Answer 174

when they are bent

Question 175

how small of movements are hair cells sensitive to

Answer 175

as small as 10 picometers

Question 176

hair cells are tonotropic, what does this mean

Answer 176

they respond preferentially to particular frequencies

Question 177

what are the stages/the process of auditory transduction

Answer 177

Air pressure changes (kinetic)
Vibration of eardrum → middle ear → oval window (mechanical)
Cochlear fluid flows (kinetic)
Hair cells bend (mechanical)
Auditory nerve fires (neural)

Question 178

are pitch and loudness independent

Answer 178

no, More intense low frequency sounds are perceived as a lower pitch

Question 179

what is binaural (two ear) space perception needed to perceive

Answer 179

direction of where an auditory stimulus is coming from

Question 180

under what sort of auditory perception do you get the doppler effect

Answer 180

monaural (sound that originates from one location)

Question 181

what does the head shadow effect refer to

Answer 181

the attenuation of sound, sound must travel further to reach the left ear (if the stimulus comes from right side) so diffuses around head

Question 182

what are the 3 streams auditory infomation is grouped into

Answer 182

space
time
frequency

Question 183

what are sherpard tones

Answer 183

sounds of the same pitch which have the appearance of going in an ascending scale

Question 184

who said ‘The study of what are called illusions of the senses is a very prominent part of the senses; for just those cases which are not in accordance with reality are particularly instructive for the discovering the laws of those means and processes by which normal perception originates”

Answer 184

helmholtz

Question 185

why do visual illusions occur

Answer 185

Sometimes ‘perceptual hypothesis’ is incorrect and an illusion is resultant (Gregory,1997)

Illusions occur when what we see does not correspond to what is physically presented

Question 186

what are the 4 classifications of visual illusion

Answer 186

distortions
ambigious figures
paradoxical figures
fictions

Question 187

what are some examples of distortion visual illusions

Answer 187

Muller-lyer, ponzo, poggendorff, hering & Wundt

Question 188

what are some examples of paradoxical figure visual illusions

Answer 188

impossible objects

Question 189

what are some examples of ambigious figures visual illusiosn

Answer 189

necker cube, rubin vase

Question 190

what are some examples of fictions visual

Answer 190

kanizsa triangle, ames room

Question 191

what is the muller-lyer illusion

Answer 191

two straight linesofthe same size , one with inward facing fins and one with outward facing fins, the outward fin line looks longer/further away

Question 192

does the muller lyer illusion apply to everyone

Answer 192

not cross cultural: people who live in natural environments (w/o man made rectangle structures) are much less prone to the illusion

Question 193

what is the ponzo illusion

Answer 193

Illusion of size : two lines converge towards vanishing point - gives impression the line nearer the vanishing point is further away, so appears larger

Question 194

what is the necker cube illusion

Answer 194

is the dot in the cube in the close or far corner

Question 195

what is a kanisza triangle and why does this illusion occur

Answer 195

a ‘subjective contour’ which occurs because near objects look brighter distant ones of the brain interprets the illusory triangles as being closer than the circles. This means you see them as being brighter than the things that you think are further away

Question 196

what do moon illusions affect perceptually

Answer 196

size, moon looks bigger on horizon compared to zenith

Question 197

what do the ouchi illusion and peripheral drift illusion affect perceptually

Answer 197

motion perception, brain interprets that there must be movement due to diff pattern orientations

Question 198

The skin is the largest organ in the body, what is its area and mass

Answer 198

Area = 1.8 m2
Weight = 5 Kg

Question 199

What are the two types of skin?

Answer 199

Glabrous (found on palms of hands and feet) and hairy (found everywhere else).

Question 200

What are the two types of skin?

Answer 200

Glabrous (found on palms of hands and feet) and hairy (found everywhere else).

Question 201

What happens when a stimulus contacts the skin?

Answer 201

A receptor in the skin fires, and the signal travels to the brain via the spinal cord until it reaches the somatosensory cortex on the opposite side of the body.

Question 202

What are the four senses, that receptors sensitive to many kinds of energy, give rise to?

Answer 202

Touch, pain, body sense (proprioception), and temperature.

Question 203

What are the four types of tactile receptors in the skin, and in what order are they from closest to the surface to deepest embedded?

Answer 203

Merkel’s disc (fine details), Meissner corpuscle (fluttering sensation), Ruffini organ (stretching), and Paccinian corpuscle (vibration and fine texture).

Question 204

what is important about having many different receptor types

Answer 204

Many receptors detect many types of information, and a single stimulus can activate many different receptor systems.

Question 205

What are receptive fields?

Answer 205

The area of skin that a particular cell receives information about.

Question 206

What is the two-point threshold?

Answer 206

The smallest separation of two separate but adjacent points of stimulation on the skin that just produces two distinct impressions of touch.

Question 207

What are some advantages of active touch?

Answer 207

More parts of the body can contact an object, the most diagnostic parts of objects can be felt, and kinesthetic senses are also engaged.

Question 208

what is the two point threshold on the fingertip compared to the arm

Answer 208

2mm on fingertip
3.5cm on arm

Question 209

What are the two types of pain?

Answer 209

Fast pain (sharp, A delta fibers) and slow pain (dull, C fibers).

Question 210

What can pain be affected by?

Answer 210

A person’s mental state, the absence of stimulation, and attention.

Question 211

what is the emotional effect on the top down influence on touch

Answer 211

same sensation may be pleasurable or unpleasant

Question 212

what is the ratio of receptors on our fingertips compared to our backs and what affect does this have on two point threshold

Answer 212

We have 100 times more receptors per square cm on our fingertips than on our back

decreased two point threshold

Question 213

How can pain be reduced

Answer 213

non-painful tactile inputs, top-down input, and interneurons that can inhibit the synapses to the spinal cord to prevent pain sensations.

Question 214

What is proprioception?

Answer 214

Where the body is in space, as signaled by muscles, the vestibular system, tactile receptors, and kinesthesis.

Question 215

What did IW lose due to a viral infection at age 19?

Answer 215

Proprioception, kinesthesis, and touch.

Question 216

What is the function of the cornea?

Answer 216

acts as a protective covering and helps to focus light.

Question 217

What is the function of the lens?

Answer 217

helps to focus light and adjust the shape of the eye for near or far vision.

Question 218

what are the 5 core tastes

Answer 218

sweet, sour , salty, bitter & umami

Question 219

where do the 5 core tastes correspond to location wise on a taste map

Answer 219

trick question, taste maps are bullshit

Question 220

what causes sugar tastes

Answer 220

sugars (fructose, glucose…), artificial sweeteners (aspartame, saccharin…)

Question 221

what causes sour tastes

Answer 221

all acids ( acetic, citric, ascorbic, phosphoric, lactic …)

Question 222

what causes bitter tastes

Answer 222

no unique chemical class ; quinine, caffeine, peptide, phenols

Question 223

what causes salty tastes

Answer 223

salts like table salt (NaCl) or NH4Cl, KCl

Question 224

what causes umami tastes

Answer 224

mono sodium glutamate Inosine 5’ - monophosphate, guanosine 5’-monophosphate

(MSG)

Question 225

what are the differences between super tasters and hypotasters

Answer 225

Supertasters have more papillae & taste buds
Hypotasters have less papillae & taste buds
(compared to average )

Question 226

what is a potential ‘sixth’ taste

Answer 226

starch

Question 227

how many different molecules can we discriminate via smell

Answer 227

1 Trillion

Question 228

what are the top down effects on smell

Answer 228

Attention
Sniffing (if youre smelling to see if something is burning)
Automatic attention (if someone farts and it stank asf)
Effect of labelling
E.g same odours smells worse when labelled as body odour vs as cheese
Effect of learning
E.g expert wine tasters identifying wine odours

Question 229

proust effect is? ( smell and memory)

Answer 229

vivid being memories brought back by particular smells

Question 230

what is the limbic system closely linked to

Answer 230

smell

Question 231

what is an example of multisensory perception

Answer 231

eating, flavour activates taste and olfaction

Question 232

what things influence taste

Answer 232

texture, pain(e.g chilli’s), sound (crunch) and vision

Question 233

imagine you just ate a chilli, what tastes have effects on suppressing the ‘pain’ experienced

Answer 233

Best- sweet and sour liquids (milk is defined as sweet)
Bitter is not effective in suppressing spice/chill
Salty flavours are intermediates in suppressing chilli/spice

Question 234

what is a multisensory stimulus

Answer 234

generates several independent energies, which are simultaneously detectable by diff types of sensory receptors’ (Meredith, 2003)

Question 235

what is special about single neurones in multisensory receptive fields

Answer 235

may respond to more than one modality

Question 236

what is the mcgurk effect

Answer 236

Watch lips go ga-ga
Hear sound ba-ba
Subjects perceive movement da-da
Visual info is affecting the sound that you hear

Question 237

what is kinaesthesia

Answer 237

illusion of speed
Nervous system turns down the ‘gain’ on steady-state inputs
If youre going 70mph, 10 mins later after steadily gfoing at 70mph, it feels like 50mph

Question 238

what is synaesthesia

Answer 238

Stimulation of a particular type which always leads to another perceptual experience