Environment and Sensation - MCAT Psychological and Social Foundations
Card 1 of 160
Signal detection studies measure an individual’s ability to detect certain stimuli. They involve exposure to stimuli at varying magnitudes and ask subjects to detect any changes in their perceptual experience of the stimuli (i.e. the just-noticeable difference). Perceiving magnitude differences in stimuli depends on the type of sensory experience (e.g. touch or sound) and is based on proportional rather than absolute amounts.
Imagine a hypothetical study that asked participants to perceive changes in amplitude of a sound stimulus. In this experiment, the researchers wanted to know how much the amplitude needed to change in order for an individual to detect a difference. They decided to test the just-noticeable difference at three different amplitudes: low, medium, and high. Participants in each category listened to the initial sound, and then the amplitude was increased or decreased slightly until participants detected a difference.
Imagine that this study used a forced choice design in which participants had to select "the same" or "different" after hearing a pair of sounds at different amplitudes. As the amplitude of the comparison sound increased, which type of signal detection response would be most likely, regardless of the initial sound?
Signal detection studies measure an individual’s ability to detect certain stimuli. They involve exposure to stimuli at varying magnitudes and ask subjects to detect any changes in their perceptual experience of the stimuli (i.e. the just-noticeable difference). Perceiving magnitude differences in stimuli depends on the type of sensory experience (e.g. touch or sound) and is based on proportional rather than absolute amounts.
Imagine a hypothetical study that asked participants to perceive changes in amplitude of a sound stimulus. In this experiment, the researchers wanted to know how much the amplitude needed to change in order for an individual to detect a difference. They decided to test the just-noticeable difference at three different amplitudes: low, medium, and high. Participants in each category listened to the initial sound, and then the amplitude was increased or decreased slightly until participants detected a difference.
Imagine that this study used a forced choice design in which participants had to select "the same" or "different" after hearing a pair of sounds at different amplitudes. As the amplitude of the comparison sound increased, which type of signal detection response would be most likely, regardless of the initial sound?
Tap to reveal answer
In forced-choice signal detection method, responses can be classified into four categories: miss (failing to identify a changed stimulus), false alarm (identifying an unchanged stimulus as changed), correct rejection (identifying an unchanged comparison as the same as the initial stimulus), or hit (correctly identifying a comparison stimulus that differs from the initial stimulus). As the amplitude is increased, it is also more likely that the subject would be able to correctly identify a changed stimulus. The greater the discrepancy in magnitude for the two sounds, the more likely the participant will get a hit.
In forced-choice signal detection method, responses can be classified into four categories: miss (failing to identify a changed stimulus), false alarm (identifying an unchanged stimulus as changed), correct rejection (identifying an unchanged comparison as the same as the initial stimulus), or hit (correctly identifying a comparison stimulus that differs from the initial stimulus). As the amplitude is increased, it is also more likely that the subject would be able to correctly identify a changed stimulus. The greater the discrepancy in magnitude for the two sounds, the more likely the participant will get a hit.
← Didn't Know|Knew It →
Which of the following is an example of sensory adaptation?
Which of the following is an example of sensory adaptation?
Tap to reveal answer
Sensory adaptation is the gradual alteration in sensitivity with prolonged stimulation or the absence of stimulation. Being able to see the candle flame is an example of "absolute threshold," which is the minimum intensity of a stimulus for humans to be able to detect the stimulus fifty percent of the time. Last, needing more of a drug to feel its effects is an example of tolerance.
Sensory adaptation is the gradual alteration in sensitivity with prolonged stimulation or the absence of stimulation. Being able to see the candle flame is an example of "absolute threshold," which is the minimum intensity of a stimulus for humans to be able to detect the stimulus fifty percent of the time. Last, needing more of a drug to feel its effects is an example of tolerance.
← Didn't Know|Knew It →
What is the definition of a "just-noticeable difference"?
What is the definition of a "just-noticeable difference"?
Tap to reveal answer
Just-noticeable difference (JND) is the amount that a stimulus needs to change for someone to be able to notice it at least half the time. For example, the JND needed to perceive that a light is brighter is a two percent change in the brightness of the light’s illumination. This means that when the brightness goes up by two percent, we would be able to notice a difference half of the time or more.
Just-noticeable difference (JND) is the amount that a stimulus needs to change for someone to be able to notice it at least half the time. For example, the JND needed to perceive that a light is brighter is a two percent change in the brightness of the light’s illumination. This means that when the brightness goes up by two percent, we would be able to notice a difference half of the time or more.
← Didn't Know|Knew It →
As a part of a research study, Carlos was presented with a sound. He was instructed to press "S" (for “same”) every time that he heard the same sound, and to press "D" (for “different”) every time he heard a different sound. At the end of the test, Carlos was informed that he correctly pressed "S" for every same sound, but incorrectly identified many of the different sounds as “same sounds.” Carlos' ability to detect signals would be described as which of the following?
As a part of a research study, Carlos was presented with a sound. He was instructed to press "S" (for “same”) every time that he heard the same sound, and to press "D" (for “different”) every time he heard a different sound. At the end of the test, Carlos was informed that he correctly pressed "S" for every same sound, but incorrectly identified many of the different sounds as “same sounds.” Carlos' ability to detect signals would be described as which of the following?
Tap to reveal answer
Sensitivity is the ability to detect a true signal. Carlos correctly identified all of the "S" sounds; however, he missed many of the "D" sounds, indicating that his selectivity is poor. In medicine, doctors desire that screening instruments (e.g. mammograms as a screening for breast cancer) have high sensitivity so that no cases or symptoms are missed. Selectivity is less important for screening.
Sensitivity is the ability to detect a true signal. Carlos correctly identified all of the "S" sounds; however, he missed many of the "D" sounds, indicating that his selectivity is poor. In medicine, doctors desire that screening instruments (e.g. mammograms as a screening for breast cancer) have high sensitivity so that no cases or symptoms are missed. Selectivity is less important for screening.
← Didn't Know|Knew It →
Signal detection studies measure an individual’s ability to detect certain stimuli. They involve exposure to stimuli at varying magnitudes and ask subjects to detect any changes in their perceptual experience of the stimuli (i.e. the just-noticeable difference). Perceiving magnitude differences in stimuli depends on the type of sensory experience (e.g. touch or sound) and is based on proportional rather than absolute amounts.
Imagine a hypothetical study that asked participants to perceive changes in amplitude of a sound stimulus. In this experiment, the researchers wanted to know how much the amplitude needed to change in order for an individual to detect a difference. They decided to test the just-noticeable difference at three different amplitudes: low, medium, and high. Participants in each category listened to the initial sound, and then the amplitude was increased or decreased slightly until participants detected a difference.
Which of the following choices best describes amplitude?
Signal detection studies measure an individual’s ability to detect certain stimuli. They involve exposure to stimuli at varying magnitudes and ask subjects to detect any changes in their perceptual experience of the stimuli (i.e. the just-noticeable difference). Perceiving magnitude differences in stimuli depends on the type of sensory experience (e.g. touch or sound) and is based on proportional rather than absolute amounts.
Imagine a hypothetical study that asked participants to perceive changes in amplitude of a sound stimulus. In this experiment, the researchers wanted to know how much the amplitude needed to change in order for an individual to detect a difference. They decided to test the just-noticeable difference at three different amplitudes: low, medium, and high. Participants in each category listened to the initial sound, and then the amplitude was increased or decreased slightly until participants detected a difference.
Which of the following choices best describes amplitude?
Tap to reveal answer
In the passage, amplitude refers to loudness. On the other hand, frequency refers to pitch while timbre refers to quality/purity of sound.
In the passage, amplitude refers to loudness. On the other hand, frequency refers to pitch while timbre refers to quality/purity of sound.
← Didn't Know|Knew It →
Perception is the process that occurs when the brain processes sensory stimuli and translates them in a way that a person can understand. Perception is not usually a conscious process; furthermore, sensing a particular stimulus is a different process than the interpretation (i.e. perception) of that stimulus.
A team of perception researchers decided to test the difference between sensation and perception by testing the reading speed of a paragraph in three conditions. In the first condition, the researchers correctly spelled the words in the sentences. In the second condition, they had the same words with the letters randomly jumbled within each word; however, the first and last letter of each word remained in the correct position. In the third condition, researchers used the same words and randomly jumbled every letter in each word, including the first and last letters. Sample sentences from the paragraphs are below:
1). Mary crossed the street to purchase a cookie after lunch.
2). Mray csorsed the sretet to pruachse a ckooie atfer lnuch.
3). Rmya rsocsed het teerst to curaepshs a okocei feart culhn.
The researchers timed how long it took for the participants to correctly say a sentence fluently. They found that participants in condition three took significantly more time to read the sentence fluently, whereas they found no significant difference in the average amount of time it took participants to read the passage in condition one compared to condition two.
The observation that participants did not differ in reading time between conditions one and two illustrates that humans rely on which of the following principles when reading?
Perception is the process that occurs when the brain processes sensory stimuli and translates them in a way that a person can understand. Perception is not usually a conscious process; furthermore, sensing a particular stimulus is a different process than the interpretation (i.e. perception) of that stimulus.
A team of perception researchers decided to test the difference between sensation and perception by testing the reading speed of a paragraph in three conditions. In the first condition, the researchers correctly spelled the words in the sentences. In the second condition, they had the same words with the letters randomly jumbled within each word; however, the first and last letter of each word remained in the correct position. In the third condition, researchers used the same words and randomly jumbled every letter in each word, including the first and last letters. Sample sentences from the paragraphs are below:
1). Mary crossed the street to purchase a cookie after lunch.
2). Mray csorsed the sretet to pruachse a ckooie atfer lnuch.
3). Rmya rsocsed het teerst to curaepshs a okocei feart culhn.
The researchers timed how long it took for the participants to correctly say a sentence fluently. They found that participants in condition three took significantly more time to read the sentence fluently, whereas they found no significant difference in the average amount of time it took participants to read the passage in condition one compared to condition two.
The observation that participants did not differ in reading time between conditions one and two illustrates that humans rely on which of the following principles when reading?
Tap to reveal answer
Top-down and bottom-up processing are both examples of feature analysis, which allows us to detect specific elements and assemble them into a more complex visual form. A top-down process is a progression from the whole to the details (in this case, from the whole word to the individual letters). Bottom-up processing is the opposite; it is the progression from individual elements to the whole. Because participants in condition two were still reading as quickly as those in condition one, it suggests that in reading, humans process the whole word rather than each individual letter (i.e. top-down process).
The Phi Phenomenon is the illusion of movement created by presenting visual stimuli in rapid succession (e.g. a cartoon flip book). Inattentional blindness occurs when someone is hyper-focused on one stimulus and unable to take in other information.
Top-down and bottom-up processing are both examples of feature analysis, which allows us to detect specific elements and assemble them into a more complex visual form. A top-down process is a progression from the whole to the details (in this case, from the whole word to the individual letters). Bottom-up processing is the opposite; it is the progression from individual elements to the whole. Because participants in condition two were still reading as quickly as those in condition one, it suggests that in reading, humans process the whole word rather than each individual letter (i.e. top-down process).
The Phi Phenomenon is the illusion of movement created by presenting visual stimuli in rapid succession (e.g. a cartoon flip book). Inattentional blindness occurs when someone is hyper-focused on one stimulus and unable to take in other information.
← Didn't Know|Knew It →
Perception is the process that occurs when the brain processes sensory stimuli and translates them in a way that a person can understand. Perception is not usually a conscious process; furthermore, sensing a particular stimulus is a different process than the interpretation (i.e. perception) of that stimulus.
A team of perception researchers decided to test the difference between sensation and perception by testing the reading speed of a paragraph in three conditions. In the first condition, the researchers correctly spelled the words in the sentences. In the second condition, they had the same words with the letters randomly jumbled within each word; however, the first and last letter of each word remained in the correct position. In the third condition, researchers used the same words and randomly jumbled every letter in each word, including the first and last letters. Sample sentences from the paragraphs are below:
1). Mary crossed the street to purchase a cookie after lunch.
2). Mray csorsed the sretet to pruachse a ckooie atfer lnuch.
3). Rmya rsocsed het teerst to curaepshs a okocei feart culhn.
The researchers timed how long it took for the participants to correctly say a sentence fluently. They found that participants in condition three took significantly more time to read the sentence fluently, whereas they found no significant difference in the average amount of time it took participants to read the passage in condition one compared to condition two.
Suppose the researchers were also interested in the amount of time it took the participants in each condition to read each letter fluently (as opposed to each word). In order to test this phenomenon, participants across conditions were instructed to read each letter aloud as quickly and as correctly as possible. They found no group differences in letter reading speed or accuracy. Based on these results, the researchers would most likely conclude which of the following?
Perception is the process that occurs when the brain processes sensory stimuli and translates them in a way that a person can understand. Perception is not usually a conscious process; furthermore, sensing a particular stimulus is a different process than the interpretation (i.e. perception) of that stimulus.
A team of perception researchers decided to test the difference between sensation and perception by testing the reading speed of a paragraph in three conditions. In the first condition, the researchers correctly spelled the words in the sentences. In the second condition, they had the same words with the letters randomly jumbled within each word; however, the first and last letter of each word remained in the correct position. In the third condition, researchers used the same words and randomly jumbled every letter in each word, including the first and last letters. Sample sentences from the paragraphs are below:
1). Mary crossed the street to purchase a cookie after lunch.
2). Mray csorsed the sretet to pruachse a ckooie atfer lnuch.
3). Rmya rsocsed het teerst to curaepshs a okocei feart culhn.
The researchers timed how long it took for the participants to correctly say a sentence fluently. They found that participants in condition three took significantly more time to read the sentence fluently, whereas they found no significant difference in the average amount of time it took participants to read the passage in condition one compared to condition two.
Suppose the researchers were also interested in the amount of time it took the participants in each condition to read each letter fluently (as opposed to each word). In order to test this phenomenon, participants across conditions were instructed to read each letter aloud as quickly and as correctly as possible. They found no group differences in letter reading speed or accuracy. Based on these results, the researchers would most likely conclude which of the following?
Tap to reveal answer
If participants in all three conditions did not differ in letter reading speed, but they differed in word reading speed, then it suggests that reading is not just decoding letters. In other words, top-down processes are at play. In a top-down process, the brain uses a-priori knowledge of the world to form percepts or mental impressions about what a stimulus might be.
Given that participants in condition three were reading slower, it could be that their reading ability was poorer to begin with (i.e. a confounding variable); however, because they can read letters just as fluently as the other groups, it is unlikely that the groups differ in reading ability.
If participants in all three conditions did not differ in letter reading speed, but they differed in word reading speed, then it suggests that reading is not just decoding letters. In other words, top-down processes are at play. In a top-down process, the brain uses a-priori knowledge of the world to form percepts or mental impressions about what a stimulus might be.
Given that participants in condition three were reading slower, it could be that their reading ability was poorer to begin with (i.e. a confounding variable); however, because they can read letters just as fluently as the other groups, it is unlikely that the groups differ in reading ability.
← Didn't Know|Knew It →
Perception is the process that occurs when the brain processes sensory stimuli and translates them in a way that a person can understand. Perception is not usually a conscious process; furthermore, sensing a particular stimulus is a different process than the interpretation (i.e. perception) of that stimulus.
A team of perception researchers decided to test the difference between sensation and perception by testing the reading speed of a paragraph in three conditions. In the first condition, the researchers correctly spelled the words in the sentences. In the second condition, they had the same words with the letters randomly jumbled within each word; however, the first and last letter of each word remained in the correct position. In the third condition, researchers used the same words and randomly jumbled every letter in each word, including the first and last letters. Sample sentences from the paragraphs are below:
1). Mary crossed the street to purchase a cookie after lunch.
2). Mray csorsed the sretet to pruachse a ckooie atfer lnuch.
3). Rmya rsocsed het teerst to curaepshs a okocei feart culhn.
The researchers timed how long it took for the participants to correctly say a sentence fluently. They found that participants in condition three took significantly more time to read the sentence fluently, whereas they found no significant difference in the average amount of time it took participants to read the passage in condition one compared to condition two.
Suppose the researchers wanted to test the Gestalt principle of proximity. In order to do this, they might consider which of the following options?
Perception is the process that occurs when the brain processes sensory stimuli and translates them in a way that a person can understand. Perception is not usually a conscious process; furthermore, sensing a particular stimulus is a different process than the interpretation (i.e. perception) of that stimulus.
A team of perception researchers decided to test the difference between sensation and perception by testing the reading speed of a paragraph in three conditions. In the first condition, the researchers correctly spelled the words in the sentences. In the second condition, they had the same words with the letters randomly jumbled within each word; however, the first and last letter of each word remained in the correct position. In the third condition, researchers used the same words and randomly jumbled every letter in each word, including the first and last letters. Sample sentences from the paragraphs are below:
1). Mary crossed the street to purchase a cookie after lunch.
2). Mray csorsed the sretet to pruachse a ckooie atfer lnuch.
3). Rmya rsocsed het teerst to curaepshs a okocei feart culhn.
The researchers timed how long it took for the participants to correctly say a sentence fluently. They found that participants in condition three took significantly more time to read the sentence fluently, whereas they found no significant difference in the average amount of time it took participants to read the passage in condition one compared to condition two.
Suppose the researchers wanted to test the Gestalt principle of proximity. In order to do this, they might consider which of the following options?
Tap to reveal answer
The Gestalt principle of proximity suggests that the closer objects are to one another, the more likely they will be grouped together. This is why we leave larger spaces between words than we do letters. Testing if varying the amount of space between words impacted reading fluency would be testing proximity whereas varying color, font, or size would be testing the Gestalt principle of similarity, which posits that objects that are visually similar (in size shape or color) are likely to be grouped together.
The Gestalt principle of proximity suggests that the closer objects are to one another, the more likely they will be grouped together. This is why we leave larger spaces between words than we do letters. Testing if varying the amount of space between words impacted reading fluency would be testing proximity whereas varying color, font, or size would be testing the Gestalt principle of similarity, which posits that objects that are visually similar (in size shape or color) are likely to be grouped together.
← Didn't Know|Knew It →
Signal detection studies measure an individual’s ability to detect certain stimuli. They involve exposure to stimuli at varying magnitudes and ask subjects to detect any changes in their perceptual experience of the stimuli (i.e. the just-noticeable difference). Perceiving magnitude differences in stimuli depends on the type of sensory experience (e.g. touch or sound) and is based on proportional rather than absolute amounts.
Imagine a hypothetical study that asked participants to perceive changes in amplitude of a sound stimulus. In this experiment, the researchers wanted to know how much the amplitude needed to change in order for an individual to detect a difference. They decided to test the just-noticeable difference at three different amplitudes: low, medium, and high. Participants in each category listened to the initial sound, and then the amplitude was increased or decreased slightly until participants detected a difference.
The researchers found that for the low amplitude condition, increasing the amplitude by ten decibels resulted in participants noticing a difference half of the time (the other half of the time, they did not detect a difference between the two stimuli). The researchers can make which of the following conclusions?
Signal detection studies measure an individual’s ability to detect certain stimuli. They involve exposure to stimuli at varying magnitudes and ask subjects to detect any changes in their perceptual experience of the stimuli (i.e. the just-noticeable difference). Perceiving magnitude differences in stimuli depends on the type of sensory experience (e.g. touch or sound) and is based on proportional rather than absolute amounts.
Imagine a hypothetical study that asked participants to perceive changes in amplitude of a sound stimulus. In this experiment, the researchers wanted to know how much the amplitude needed to change in order for an individual to detect a difference. They decided to test the just-noticeable difference at three different amplitudes: low, medium, and high. Participants in each category listened to the initial sound, and then the amplitude was increased or decreased slightly until participants detected a difference.
The researchers found that for the low amplitude condition, increasing the amplitude by ten decibels resulted in participants noticing a difference half of the time (the other half of the time, they did not detect a difference between the two stimuli). The researchers can make which of the following conclusions?
Tap to reveal answer
The just-noticeable difference is the amount that the stimulus needs to change in order for a human to perceive a difference half of the time or more. In this case, participants in the low amplitude condition were able to identify a difference half of the time when the amplitude was increased by ten decibels.
The just-noticeable difference is the amount that the stimulus needs to change in order for a human to perceive a difference half of the time or more. In this case, participants in the low amplitude condition were able to identify a difference half of the time when the amplitude was increased by ten decibels.
← Didn't Know|Knew It →
Excerpt from “Two Kinds of Vocational Education” by Julius T. House, 1921
American Journal of Sociology, Vol. 27, No. 2 (Sep., 1921), pp. 222-225
There are two schools of thinkers interested in vocational education. One of these is individualistic, thinks in teams of fitting the child to the job, accepts the present economic system with little, if any, criticism. It would isolate consideration of the vocation, so far as possible, from consideration of its social purposes. Psychologically its plan is based upon habit, with no thought of developing in the child a sense of the relation of his work to the whole social process. To secure the result sought there must be early separation of technical schools from the rest of the school system. It is proposed to begin with the seventh grade, the so-called junior high school.
The purpose of the technical school is and will be to get the answer, already known to the teacher, by the shortest route. Emphasis will be laid on rapid calculation; swift, effective movement; automatic response. The typewriter, the shorthand notebook, the hammer and nail, the stove, the furnace, the retort, are the instruments of education. A technique of salesmanship and advertising, without the regard to the ethics of these operations and with no comprehension of the principles of psychology, is developed. Rough-and-ready adaptation to a rough-and-ready business world is the goal.
Certain results follow: (1) Even more rigid division of industrial life between two groups: those who manage, in whom power of initiative is vested; those who are skilled in narrow processes with no outlook upon the meaning of the work. (2) The exploitation of this isolated class. (3) The establishment of an institution to perpetuate this condition. Custom is already being instituted of sending the children of poor families to this manual-skill-producing school. (4) Public taxation to support institutions to assist business based on the supposition that when business prospers moral values take care of themselves.
The second group of thinkers, seemingly few but with men like John Dewey leading, are interested in vocational education as a means of introducing the child more intimately into the life of society. It is believed that such study should be directed to the perception of the relation of vocations to all the social process. Therefore all the students are to study all the vocations. The choice of a life-work will be, then, only a by-product of the training—important indeed, but still a by-product. Already such work is done in the grades. It remains only to enlarge it and relate it to the proper sciences as the later years of school life are reached.
The author argues that the working class will be continually exploited by the managing class. Suppose that one manager slowly decreases the hourly wage of his employees by $0.03 every month. The workers are bothered, but don’t feel that it effects them that much. Another manager outrages his employees by dropping the hourly wage by $0.40. Who developed a law of sensory perception that accurately models this scenario?
Excerpt from “Two Kinds of Vocational Education” by Julius T. House, 1921
American Journal of Sociology, Vol. 27, No. 2 (Sep., 1921), pp. 222-225
There are two schools of thinkers interested in vocational education. One of these is individualistic, thinks in teams of fitting the child to the job, accepts the present economic system with little, if any, criticism. It would isolate consideration of the vocation, so far as possible, from consideration of its social purposes. Psychologically its plan is based upon habit, with no thought of developing in the child a sense of the relation of his work to the whole social process. To secure the result sought there must be early separation of technical schools from the rest of the school system. It is proposed to begin with the seventh grade, the so-called junior high school.
The purpose of the technical school is and will be to get the answer, already known to the teacher, by the shortest route. Emphasis will be laid on rapid calculation; swift, effective movement; automatic response. The typewriter, the shorthand notebook, the hammer and nail, the stove, the furnace, the retort, are the instruments of education. A technique of salesmanship and advertising, without the regard to the ethics of these operations and with no comprehension of the principles of psychology, is developed. Rough-and-ready adaptation to a rough-and-ready business world is the goal.
Certain results follow: (1) Even more rigid division of industrial life between two groups: those who manage, in whom power of initiative is vested; those who are skilled in narrow processes with no outlook upon the meaning of the work. (2) The exploitation of this isolated class. (3) The establishment of an institution to perpetuate this condition. Custom is already being instituted of sending the children of poor families to this manual-skill-producing school. (4) Public taxation to support institutions to assist business based on the supposition that when business prospers moral values take care of themselves.
The second group of thinkers, seemingly few but with men like John Dewey leading, are interested in vocational education as a means of introducing the child more intimately into the life of society. It is believed that such study should be directed to the perception of the relation of vocations to all the social process. Therefore all the students are to study all the vocations. The choice of a life-work will be, then, only a by-product of the training—important indeed, but still a by-product. Already such work is done in the grades. It remains only to enlarge it and relate it to the proper sciences as the later years of school life are reached.
The author argues that the working class will be continually exploited by the managing class. Suppose that one manager slowly decreases the hourly wage of his employees by $0.03 every month. The workers are bothered, but don’t feel that it effects them that much. Another manager outrages his employees by dropping the hourly wage by $0.40. Who developed a law of sensory perception that accurately models this scenario?
Tap to reveal answer
Max Weber developed the Weber’s law of sensory perception while studying human stimulus. This law describes how a change in perception is proportional to the starting stimulus. For example, if a person holding a 50 pound weight cannot feel anything less than five pounds being added, then a person holding 100 pounds will not be able to feel anything less than 10 pounds being added. For the wage examples, one group was not disturbed because the amount of change was below their threshold of importance.
Max Weber developed the Weber’s law of sensory perception while studying human stimulus. This law describes how a change in perception is proportional to the starting stimulus. For example, if a person holding a 50 pound weight cannot feel anything less than five pounds being added, then a person holding 100 pounds will not be able to feel anything less than 10 pounds being added. For the wage examples, one group was not disturbed because the amount of change was below their threshold of importance.
← Didn't Know|Knew It →
In early infancy, movement is almost entirely considered to be which of the following?
In early infancy, movement is almost entirely considered to be which of the following?
Tap to reveal answer
When we are infants, our movements are almost exclusively reflexive—healthy babies demonstrate the same general response to a specific type of stimuli. While most of these movements are technically functional (i.e. the rooting reflex serves the function of aiding in child in being able to eat), not all serve a specific purpose.
On the other hand, "autonomic" does not apply to movement, but rather to unconscious actions that keep our bodies in homeostasis, like our breathing. Very young infants have not yet developed the nervous system capabilities that allow for exploratory movements.
When we are infants, our movements are almost exclusively reflexive—healthy babies demonstrate the same general response to a specific type of stimuli. While most of these movements are technically functional (i.e. the rooting reflex serves the function of aiding in child in being able to eat), not all serve a specific purpose.
On the other hand, "autonomic" does not apply to movement, but rather to unconscious actions that keep our bodies in homeostasis, like our breathing. Very young infants have not yet developed the nervous system capabilities that allow for exploratory movements.
← Didn't Know|Knew It →
Which muscle is responsible for changing the shape of the lens during accommodation?
Which muscle is responsible for changing the shape of the lens during accommodation?
Tap to reveal answer
The structure responsible for changing the shape of the lens during accommodation is the ciliary muscle. This is a ring of smooth muscle in the middle layer of the eye that is attached to the lens via the suspensory ligament. Contraction and relaxation of the ciliary muscle will cause the suspensory ligament to tighten (in the case of relaxation of the ciliary muscle) or relax (in the case of contraction of the ciliary muscle). This affects the thickness of the lens, allowing for accommodation.
The sphincter pupillae and dilator pupillae are both responsible for changing the shape of the iris, rather than the lens, and the medial rectus muscle is an extrinsic eye muscle that moves the whole eye medially.
The structure responsible for changing the shape of the lens during accommodation is the ciliary muscle. This is a ring of smooth muscle in the middle layer of the eye that is attached to the lens via the suspensory ligament. Contraction and relaxation of the ciliary muscle will cause the suspensory ligament to tighten (in the case of relaxation of the ciliary muscle) or relax (in the case of contraction of the ciliary muscle). This affects the thickness of the lens, allowing for accommodation.
The sphincter pupillae and dilator pupillae are both responsible for changing the shape of the iris, rather than the lens, and the medial rectus muscle is an extrinsic eye muscle that moves the whole eye medially.
← Didn't Know|Knew It →
Which division of the nervous system controls the dilator pupillae and is known as the iris dilator muscle?
Which division of the nervous system controls the dilator pupillae and is known as the iris dilator muscle?
Tap to reveal answer
Control of the muscles responsible for dilation of the pupil is mediated by the sympathetic division of the autonomic nervous system. During states of fear, sexual arousal, or heightened attention, the pupil will dilate due to the stimulation of the dilator pupillae, or iris dilator muscle.
Control of the muscles responsible for dilation of the pupil is mediated by the sympathetic division of the autonomic nervous system. During states of fear, sexual arousal, or heightened attention, the pupil will dilate due to the stimulation of the dilator pupillae, or iris dilator muscle.
← Didn't Know|Knew It →
Deficits in which cranial nerve could cause ptosis (i.e. the drooping of the upper eyelid)?
Deficits in which cranial nerve could cause ptosis (i.e. the drooping of the upper eyelid)?
Tap to reveal answer
The levator palpebrae superioris is the muscle responsible for elevating the upper eyelid. It is innervated by CN III, the oculomotor nerve. CN IV (the trochlear nerve) and CN VI (the abducens nerve) are both responsible for innervation of various other muscles of eye movement, while the facial nerve (CN VII) is primarily responsible for control of the muscles of expression, for taste, and for motor innervation to the muscles of the inner ear.
The levator palpebrae superioris is the muscle responsible for elevating the upper eyelid. It is innervated by CN III, the oculomotor nerve. CN IV (the trochlear nerve) and CN VI (the abducens nerve) are both responsible for innervation of various other muscles of eye movement, while the facial nerve (CN VII) is primarily responsible for control of the muscles of expression, for taste, and for motor innervation to the muscles of the inner ear.
← Didn't Know|Knew It →
In order to successfully accommodate for changes in depth of field, lens of the eye must perform which of the following functions when re-focusing on a closer object?
In order to successfully accommodate for changes in depth of field, lens of the eye must perform which of the following functions when re-focusing on a closer object?
Tap to reveal answer
When looking at objects that are close, the lens of the eye must “thicken” to accommodate changes in depth of field. This is accomplished by contraction of the ciliary muscle, which allows the suspensory ligament to stretch. The lack of tension then allows the lens to draw up into its thicker resting state. If the vision is shifted to a far object, then ciliary muscles will relax, which increases tension on the lens via the suspensory ligament and causes it to "flatten." The lens does not “tilt” or “rotate.”
When looking at objects that are close, the lens of the eye must “thicken” to accommodate changes in depth of field. This is accomplished by contraction of the ciliary muscle, which allows the suspensory ligament to stretch. The lack of tension then allows the lens to draw up into its thicker resting state. If the vision is shifted to a far object, then ciliary muscles will relax, which increases tension on the lens via the suspensory ligament and causes it to "flatten." The lens does not “tilt” or “rotate.”
← Didn't Know|Knew It →
Ciliary and pupillary muscles are innervated by which cranial nerve?
Ciliary and pupillary muscles are innervated by which cranial nerve?
Tap to reveal answer
Ciliary and pupillary muscles are innervated by CN III, the oculomotor nerve. This nerve is also responsible for elevation of the upper eyelid, and innervation of the superior rectus, medial rectus, inferior rectus, and inferior oblique muscles of the eye. The abducens nerve (CN VI) innervates a single extraocular muscle: the lateral rectus. The optic nerve is primarily involved in transmission of visual signals from the retina to the brain, and the trigeminal nerve is not directly involved in ocular movement or function.
Ciliary and pupillary muscles are innervated by CN III, the oculomotor nerve. This nerve is also responsible for elevation of the upper eyelid, and innervation of the superior rectus, medial rectus, inferior rectus, and inferior oblique muscles of the eye. The abducens nerve (CN VI) innervates a single extraocular muscle: the lateral rectus. The optic nerve is primarily involved in transmission of visual signals from the retina to the brain, and the trigeminal nerve is not directly involved in ocular movement or function.
← Didn't Know|Knew It →
In which of the following parts of the retina is visual acuity the highest?
In which of the following parts of the retina is visual acuity the highest?
Tap to reveal answer
The fovea centralis is a zone of densely packed cone cells in the center of the macula lutea of the retina. Because of this it is the region capable of the highest degree of visual acuity. The optic disc is the point of exit for ganglion cell axons of the optic nerve. This is an area absent of rods or cones, and so is considered a "blind spot" of the eye. Last, the cornea and lens are not part of the retina.
The fovea centralis is a zone of densely packed cone cells in the center of the macula lutea of the retina. Because of this it is the region capable of the highest degree of visual acuity. The optic disc is the point of exit for ganglion cell axons of the optic nerve. This is an area absent of rods or cones, and so is considered a "blind spot" of the eye. Last, the cornea and lens are not part of the retina.
← Didn't Know|Knew It →
Myopia is a very common condition. What is myopia and which type of lens can correct it?
Myopia is a very common condition. What is myopia and which type of lens can correct it?
Tap to reveal answer
Myopia is nearsightedness, meaning the focal length is too short. This can be caused by too much refraction at the eye's lens or if the eyeball is too long. Myopia can be corrected using a concave (i.e. diverging) lens, which will increase the focal length as shown in the figure.
Myopia is nearsightedness, meaning the focal length is too short. This can be caused by too much refraction at the eye's lens or if the eyeball is too long. Myopia can be corrected using a concave (i.e. diverging) lens, which will increase the focal length as shown in the figure.
← Didn't Know|Knew It →
Which of the following is not a bone of the middle ear?
Which of the following is not a bone of the middle ear?
Tap to reveal answer
The "malleus," "incus," and "stapes" are the three bones that make up the ossicles of the middle ear. Together they work to transform sound waves into mechanical vibrations. The "pinna" is not a bone at all, but rather the anatomical term for the fleshy, cartilaginous outer ear.
The "malleus," "incus," and "stapes" are the three bones that make up the ossicles of the middle ear. Together they work to transform sound waves into mechanical vibrations. The "pinna" is not a bone at all, but rather the anatomical term for the fleshy, cartilaginous outer ear.
← Didn't Know|Knew It →
Sound waves enter the outer ear and vibrate the tympanic membrane, which causes the transmission of sound waves through the ossicles to the inner ear. In what order do the ossicles vibrate?
Sound waves enter the outer ear and vibrate the tympanic membrane, which causes the transmission of sound waves through the ossicles to the inner ear. In what order do the ossicles vibrate?
Tap to reveal answer
The ossicle that attaches directly to the tympanic membrane is the malleus, or "hammer." This bone articulates with the incus, or "anvil," which then articulates with the stapes, or "stirrup" (so called because of it's resemblance to the stirrup of a saddle). The stapes in turn attaches to the oval window of the fluid-filled inner ear.
The ossicle that attaches directly to the tympanic membrane is the malleus, or "hammer." This bone articulates with the incus, or "anvil," which then articulates with the stapes, or "stirrup" (so called because of it's resemblance to the stirrup of a saddle). The stapes in turn attaches to the oval window of the fluid-filled inner ear.
← Didn't Know|Knew It →