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Example Questions
Example Question #81 : New Sat Reading
Passage 1 adapted from "On the Death of Marie Antoinette" by Edmund Burke (1793)
It is now sixteen or seventeen years since I saw the Queen of France, then the Dauphiness, at Versailles; and surely never lighted on this orb, which she hardly seemed to touch, a more delightful vision. I saw her just above the horizon, decorating and cheering the elevated sphere she had just begun to move in, glittering like the morning star full of life and splendor and joy.
Oh, what a revolution! And what a heart must I have, to contemplate without emotion that elevation and that fall! Little did I dream, when she added titles of veneration to those of enthusiastic, distant, respectful love, that she should ever be obliged to carry the sharp antidote against disgrace concealed in that bosom; little did I dream that I should have lived to see such disasters fallen upon her, in a nation of gallant men and of cavaliers! I thought ten thousand swords must have leaped from their scabbards, to avenge even a look that threatened her with insult.
But the age of chivalry is gone; that of sophistry, economists, and calculators has succeeded, and the glory of Europe is extinguished forever. Never, never more, shall we behold that generous loyalty to rank and sex, that proud submission, that dignified obedience, that subordination of the heart, which kept alive, even in servitude itself, the spirit of an exalted freedom! The unsought grace of life, the cheap defense of nations, the nurse of manly sentiment and heroic enterprise is gone. It is gone, that sensibility of principle, that chastity of honor, which felt a stain like a wound, which inspired courage whilst it mitigated ferocity, which ennobled whatever it touched, and under which vice itself lost half its evil, by losing all its grossness.
Passage 2 adapted from Thomas Paine’s The Rights of Man (1791)
The case, therefore, divides itself into two parts; the right which they possessed by delegation, and the right which they set up by assumption. The first is admitted; but with respect to the second, I reply-
There never did, there never will, and there never can, exist a Parliament, or any description of men, or any generation of men, in any country, possessed of the right or the power of binding and controlling posterity to the "end of time," or of commanding for ever how the world shall be governed, or who shall govern it; and therefore all such clauses, acts or declarations by which the makers of them attempt to do what they have neither the right nor the power to do, nor the power to execute, are in themselves null and void. Every age and generation must be as free to act for itself in all cases as the age and generations which preceded it. The vanity and presumption of governing beyond the grave is the most ridiculous and insolent of all tyrannies. Man has no property in man; neither has any generation a property in the generations which are to follow. The Parliament or the people of 1688, or of any other period, had no more right to dispose of the people of the present day, or to bind or to control them in any shape whatever, than the parliament or the people of the present day have to dispose of, bind or control those who are to live a hundred or a thousand years hence. Every generation is, and must be, competent to all the purposes which its occasions require. It is the living, and not the dead, that are to be accommodated. When man ceases to be, his power and his wants cease with him; and having no longer any participation in the concerns of this world, he has no longer any authority in directing who shall be its governors, or how its government shall be organised, or how administered.
I am not contending for nor against any form of government, nor for nor against any party, here or elsewhere. That which a whole nation chooses to do it has a right to do. Mr. Burke says, No. Where, then, does the right exist? I am contending for the rights of the living, and against their being willed away and controlled and contracted for by the manuscript assumed authority of the dead, and Mr. Burke is contending for the authority of the dead over the rights and freedom of the living. There was a time when kings disposed of their crowns by will upon their death-beds, and consigned the people, like beasts of the field, to whatever successor they appointed. This is now so exploded as scarcely to be remembered, and so monstrous as hardly to be believed.
What is the relationship between these two passages?
Passage 2 is a direct response to the text from which Passage 1 is excerpted
Passage 2 is a direct response to the previous work of the author of Passage 1
The two passages are about similar content but are not directly related
Passage 2 is a response to monarchical thinking in general, not the author of Passage 1's thinking directly
Passage 2 is a direct response to the previous work of the author of Passage 1
Besides the clues gleaned from a general comprehension of the content of both passages, the two main clues to contend with here are 1) the dates of the two passages relative to one another (Passage 1 pre-dates Passage 2 by two years) 2) the author of Passage 2's direct reference to the author of Passage 1 (by name) in the final paragraph. From just these clues we can eliminate several answer choices. Since the first passage pre-dates the second, we know that the second passage cannot be a direct response to that text. Also, the mention of the author of Passage 1 by name in the second passage makes clear that there is a "direct" oppositional relationship between the authors of the passages on the subjects at hand.
Example Question #82 : New Sat Reading
Passage 1 adapted from "On the Death of Marie Antoinette" by Edmund Burke (1793)
It is now sixteen or seventeen years since I saw the Queen of France, then the Dauphiness, at Versailles; and surely never lighted on this orb, which she hardly seemed to touch, a more delightful vision. I saw her just above the horizon, decorating and cheering the elevated sphere she had just begun to move in, glittering like the morning star full of life and splendor and joy.
Oh, what a revolution! And what a heart must I have, to contemplate without emotion that elevation and that fall! Little did I dream, when she added titles of veneration to those of enthusiastic, distant, respectful love, that she should ever be obliged to carry the sharp antidote against disgrace concealed in that bosom; little did I dream that I should have lived to see such disasters fallen upon her, in a nation of gallant men and of cavaliers! I thought ten thousand swords must have leaped from their scabbards, to avenge even a look that threatened her with insult.
But the age of chivalry is gone; that of sophistry, economists, and calculators has succeeded, and the glory of Europe is extinguished forever. Never, never more, shall we behold that generous loyalty to rank and sex, that proud submission, that dignified obedience, that subordination of the heart, which kept alive, even in servitude itself, the spirit of an exalted freedom! The unsought grace of life, the cheap defense of nations, the nurse of manly sentiment and heroic enterprise is gone. It is gone, that sensibility of principle, that chastity of honor, which felt a stain like a wound, which inspired courage whilst it mitigated ferocity, which ennobled whatever it touched, and under which vice itself lost half its evil, by losing all its grossness.
Passage 2 adapted from Thomas Paine’s The Rights of Man (1791)
The case, therefore, divides itself into two parts; the right which they possessed by delegation, and the right which they set up by assumption. The first is admitted; but with respect to the second, I reply-
There never did, there never will, and there never can, exist a Parliament, or any description of men, or any generation of men, in any country, possessed of the right or the power of binding and controlling posterity to the "end of time," or of commanding for ever how the world shall be governed, or who shall govern it; and therefore all such clauses, acts or declarations by which the makers of them attempt to do what they have neither the right nor the power to do, nor the power to execute, are in themselves null and void. Every age and generation must be as free to act for itself in all cases as the age and generations which preceded it. The vanity and presumption of governing beyond the grave is the most ridiculous and insolent of all tyrannies. Man has no property in man; neither has any generation a property in the generations which are to follow. The Parliament or the people of 1688, or of any other period, had no more right to dispose of the people of the present day, or to bind or to control them in any shape whatever, than the parliament or the people of the present day have to dispose of, bind or control those who are to live a hundred or a thousand years hence. Every generation is, and must be, competent to all the purposes which its occasions require. It is the living, and not the dead, that are to be accommodated. When man ceases to be, his power and his wants cease with him; and having no longer any participation in the concerns of this world, he has no longer any authority in directing who shall be its governors, or how its government shall be organised, or how administered.
I am not contending for nor against any form of government, nor for nor against any party, here or elsewhere. That which a whole nation chooses to do it has a right to do. Mr. Burke says, No. Where, then, does the right exist? I am contending for the rights of the living, and against their being willed away and controlled and contracted for by the manuscript assumed authority of the dead, and Mr. Burke is contending for the authority of the dead over the rights and freedom of the living. There was a time when kings disposed of their crowns by will upon their death-beds, and consigned the people, like beasts of the field, to whatever successor they appointed. This is now so exploded as scarcely to be remembered, and so monstrous as hardly to be believed.
On which statement would the author of these two passages agree?
That monarchical rule, while obviously flawed, was the best system available at the time
That the primary focus of any ruler should be the liberty and happiness of the people
That all societies must be governed
There is no point of reasonable point of agreement between these texts in evidence in the passages excerpted
There is no point of reasonable point of agreement between these texts in evidence in the passages excerpted
The important thing to remember here is that it is important to have legitimate textual evidence to support any assertion or inference like the one demanded by this question. It does stand to reason that both authors might feel that "all civilizations need to be governed" in some way, the author of passage 2 never quite makes that statement directly. Besides, the correct answer more accurately reflects the directly oppositional viewpoints of the two passages that is, obviously, the dominant sense given by these passages when read together.
Example Question #83 : New Sat Reading
Passage 1 adapted from "On the Death of Marie Antoinette" by Edmund Burke (1793)
It is now sixteen or seventeen years since I saw the Queen of France, then the Dauphiness, at Versailles; and surely never lighted on this orb, which she hardly seemed to touch, a more delightful vision. I saw her just above the horizon, decorating and cheering the elevated sphere she had just begun to move in, glittering like the morning star full of life and splendor and joy.
Oh, what a revolution! And what a heart must I have, to contemplate without emotion that elevation and that fall! Little did I dream, when she added titles of veneration to those of enthusiastic, distant, respectful love, that she should ever be obliged to carry the sharp antidote against disgrace concealed in that bosom; little did I dream that I should have lived to see such disasters fallen upon her, in a nation of gallant men and of cavaliers! I thought ten thousand swords must have leaped from their scabbards, to avenge even a look that threatened her with insult.
But the age of chivalry is gone; that of sophistry, economists, and calculators has succeeded, and the glory of Europe is extinguished forever. Never, never more, shall we behold that generous loyalty to rank and sex, that proud submission, that dignified obedience, that subordination of the heart, which kept alive, even in servitude itself, the spirit of an exalted freedom! The unsought grace of life, the cheap defense of nations, the nurse of manly sentiment and heroic enterprise is gone. It is gone, that sensibility of principle, that chastity of honor, which felt a stain like a wound, which inspired courage whilst it mitigated ferocity, which ennobled whatever it touched, and under which vice itself lost half its evil, by losing all its grossness.
Passage 2 adapted from Thomas Paine’s The Rights of Man (1791)
The case, therefore, divides itself into two parts; the right which they possessed by delegation, and the right which they set up by assumption. The first is admitted; but with respect to the second, I reply-
There never did, there never will, and there never can, exist a Parliament, or any description of men, or any generation of men, in any country, possessed of the right or the power of binding and controlling posterity to the "end of time," or of commanding for ever how the world shall be governed, or who shall govern it; and therefore all such clauses, acts or declarations by which the makers of them attempt to do what they have neither the right nor the power to do, nor the power to execute, are in themselves null and void. Every age and generation must be as free to act for itself in all cases as the age and generations which preceded it. The vanity and presumption of governing beyond the grave is the most ridiculous and insolent of all tyrannies. Man has no property in man; neither has any generation a property in the generations which are to follow. The Parliament or the people of 1688, or of any other period, had no more right to dispose of the people of the present day, or to bind or to control them in any shape whatever, than the parliament or the people of the present day have to dispose of, bind or control those who are to live a hundred or a thousand years hence. Every generation is, and must be, competent to all the purposes which its occasions require. It is the living, and not the dead, that are to be accommodated. When man ceases to be, his power and his wants cease with him; and having no longer any participation in the concerns of this world, he has no longer any authority in directing who shall be its governors, or how its government shall be organised, or how administered.
I am not contending for nor against any form of government, nor for nor against any party, here or elsewhere. That which a whole nation chooses to do it has a right to do. Mr. Burke says, No. Where, then, does the right exist? I am contending for the rights of the living, and against their being willed away and controlled and contracted for by the manuscript assumed authority of the dead, and Mr. Burke is contending for the authority of the dead over the rights and freedom of the living. There was a time when kings disposed of their crowns by will upon their death-beds, and consigned the people, like beasts of the field, to whatever successor they appointed. This is now so exploded as scarcely to be remembered, and so monstrous as hardly to be believed.
The author of Passage 1 would most likely think that the assertions about the limits of ruling power made in Passage 2 were ___________________.
sacrilegious and depraved
wrongheaded in their ignorance of the necessity and moral righteousness of monarchical traditions
the product of Marxist thinking
well-reasoned, but ultimately flawed
wrongheaded in their ignorance of the necessity and moral righteousness of monarchical traditions
The key to this is understanding the way in which Burke frames his critiques of other viewpoints in the first passage. Namely, he laments that "the age of chivalry is gone," and that an age of "generous loyalty" between monarchal rulers and their subjects is under threat. The author, while strongly renouncing this change of opinions, is in this passage emphasizing the positive virtues of "elevated" rulers, and the implicaiton is that "calculators" (a.k.a rationalists like the author of Passage 2) are simply "ignorant" of these esteemed and "delightful vision[s]" of power.
Marxism would not be invented, even on a theoretical basis, for some time after the publication of these pieces. While "sacrilegious and deranged" may be tempting, the author does not direct any eptithets quite that strong at his ideological opponents in Passage 1, so it is not as good an answer as the correct choice. The author of Passage 1 also provides no evidence of his ability to think of opposing arguments as "well-reasoned but ultimately flawed" so this cannot be the correct answer.
Example Question #84 : New Sat Reading
Individuals of the roughly 2,000 species in the family Lampyridae include those insects capable of producing bioluminescent light through a specific metabolic process. Though commonly referred to as fireflies or lightning bugs, these idiosyncratic creatures are more accurately categorized as winged beetles. Like their amphibian predators, most fireflies are crepuscular and are thus largely reliant on their bioluminescence to attract mates, find food, and warn predators of their potential poisonousness. Fireflies are known not to be desirable prey animals for most predators due to the presence of potentially harmful substances in their blood and bitter taste. During their larval stage, bioluminescence serves as the primary defense mechanism to fend off those predators. The diet of most fireflies includes a mixture of nectar, pollen, fireflies, and other insects. It has been shown that different species of fireflies exhibit unique bioluminescence patterns when attracting mates. For example, males of the species P. pyralis (the state insect of Tennessee) use flashing patterns during courtship to attract potential mates. If a female elects to mate with the male, she will respond by reciprocating with a flash of her own. However, the males must beware, as females of other species such as P. pensylvanica can mimic these patterns to deceive, attract, and eat the males.
The biochemical reaction by which fireflies produce light occurs inside a specialized organ in their lower abdomen. This light-emitting organ utilizes the molecule luciferin, which is responsible for the production of visible light. In the presence of oxygen, magnesium ions, and the energy-rich molecule adenosine triphosphate (ATP), the enzyme luciferase converts luciferin into oxyluciferin, which emits light due to being in an electronically excited state. Upon emitting light, oxyluciferin is recycled and reconverted to luciferin so the process may continue. As with any biochemical process, the rate and capacity for bioluminescence in fireflies is dictated by the concentration of inputs as well as the rate at which byproducts are recycled. Scientists still do not fully understand how fireflies are able to produce bioluminescence with upwards of 80-90% energy efficiency. In comparison, the average incandescent light bulbs and LED lights emit only about 10% and 20% of their total electrical energy input as light, respectively. Since the first law of thermodynamics states that the total energy of the universe is constant and energy can neither be created nor destroyed, heat is the major byproduct in the reactions mentioned above.
To further study the interaction of firefly luciferase with its substrate, a student designs an experiment testing the rate at which the molecules involved are recycled. The student gathers 100 fireflies and separates them randomly into five equal experimental groups. Group A is not given any treatment and each subsequent group of fireflies is administered increasing concentrations of luciferin. Each group of fireflies is then released into separate pitch-black rooms that mimic the fireflies’ natural habitat. These rooms also contain light meters that measure the intensity of light emitted by the group of 20 fireflies as a whole. The results of this experiment are shown in Table 1.
Table 1
Treatment group |
Amount of light produced (lumens) |
Group A 0 mmol luciferase |
0.46 |
Group B 5 mmol luciferase |
0.52 |
Group C 10 mmol luciferase |
0.60 |
Group D 15 mmol luciferase |
0.57 |
Group E 20 mmol luciferase |
0.33 |
Which of the following conclusions can be drawn from the passage?
The flashing pattern of P. pyralis is different from that of P. pensylvanica
Fireflies produce the light more efficiently than any other bioluminescent organism
Fireflies are able to glow at night since they absorb sunlight during the daytime
The light produced by a firefly is brighter than that of incandescent or LED lights
The flashing pattern of P. pyralis is different from that of P. pensylvanica
In the first paragraph it is stated that fireflies of different species mimic the flashing patterns of other species in order to trick them into being eaten.
Example Question #85 : New Sat Reading
Individuals of the roughly 2,000 species in the family Lampyridae include those insects capable of producing bioluminescent light through a specific metabolic process. Though commonly referred to as fireflies or lightning bugs, these idiosyncratic creatures are more accurately categorized as winged beetles. Like their amphibian predators, most fireflies are crepuscular and are thus largely reliant on their bioluminescence to attract mates, find food, and warn predators of their potential poisonousness. Fireflies are known not to be desirable prey animals for most predators due to the presence of potentially harmful substances in their blood and bitter taste. During their larval stage, bioluminescence serves as the primary defense mechanism to fend off those predators. The diet of most fireflies includes a mixture of nectar, pollen, fireflies, and other insects. It has been shown that different species of fireflies exhibit unique bioluminescence patterns when attracting mates. For example, males of the species P. pyralis (the state insect of Tennessee) use flashing patterns during courtship to attract potential mates. If a female elects to mate with the male, she will respond by reciprocating with a flash of her own. However, the males must beware, as females of other species such as P. pensylvanica can mimic these patterns to deceive, attract, and eat the males.
The biochemical reaction by which fireflies produce light occurs inside a specialized organ in their lower abdomen. This light-emitting organ utilizes the molecule luciferin, which is responsible for the production of visible light. In the presence of oxygen, magnesium ions, and the energy-rich molecule adenosine triphosphate (ATP), the enzyme luciferase converts luciferin into oxyluciferin, which emits light due to being in an electronically excited state. Upon emitting light, oxyluciferin is recycled and reconverted to luciferin so the process may continue. As with any biochemical process, the rate and capacity for bioluminescence in fireflies is dictated by the concentration of inputs as well as the rate at which byproducts are recycled. Scientists still do not fully understand how fireflies are able to produce bioluminescence with upwards of 80-90% energy efficiency. In comparison, the average incandescent light bulbs and LED lights emit only about 10% and 20% of their total electrical energy input as light, respectively. Since the first law of thermodynamics states that the total energy of the universe is constant and energy can neither be created nor destroyed, heat is the major byproduct in the reactions mentioned above.
To further study the interaction of firefly luciferase with its substrate, a student designs an experiment testing the rate at which the molecules involved are recycled. The student gathers 100 fireflies and separates them randomly into five equal experimental groups. Group A is not given any treatment and each subsequent group of fireflies is administered increasing concentrations of luciferin. Each group of fireflies is then released into separate pitch-black rooms that mimic the fireflies’ natural habitat. These rooms also contain light meters that measure the intensity of light emitted by the group of 20 fireflies as a whole. The results of this experiment are shown in Table 1.
Table 1
Treatment group |
Amount of light produced (lumens) |
Group A 0 mmol luciferase |
0.46 |
Group B 5 mmol luciferase |
0.52 |
Group C 10 mmol luciferase |
0.60 |
Group D 15 mmol luciferase |
0.57 |
Group E 20 mmol luciferase |
0.33 |
Which choice provides the best evidence for the answer to the previous question?
“In the presence of oxygen, magnesium ions, and the energy-rich molecule adenosine triphosphate (ATP), the enzyme luciferase converts luciferin into oxyluciferin, which emits light due to being in an electronically excited state.”
“Individuals of the roughly 2,000 species in the family Lampyridae include those insects capable of producing bioluminescent light through a specific metabolic process.”
“Fireflies are known not to be desirable prey animals for most predators due to the presence of potentially harmful substances in their blood and bitter taste.”
“It has been shown that different species of fireflies exhibit unique bioluminescence patterns when attracting mates.”
“It has been shown that different species of fireflies exhibit unique bioluminescence patterns when attracting mates.”
This sentence from the first paragraph provides direct evidence supporting the answer to the previous question.
Example Question #86 : New Sat Reading
Individuals of the roughly 2,000 species in the family Lampyridae include those insects capable of producing bioluminescent light through a specific metabolic process. Though commonly referred to as fireflies or lightning bugs, these idiosyncratic creatures are more accurately categorized as winged beetles. Like their amphibian predators, most fireflies are crepuscular and are thus largely reliant on their bioluminescence to attract mates, find food, and warn predators of their potential poisonousness. Fireflies are known not to be desirable prey animals for most predators due to the presence of potentially harmful substances in their blood and bitter taste. During their larval stage, bioluminescence serves as the primary defense mechanism to fend off those predators. The diet of most fireflies includes a mixture of nectar, pollen, fireflies, and other insects. It has been shown that different species of fireflies exhibit unique bioluminescence patterns when attracting mates. For example, males of the species P. pyralis (the state insect of Tennessee) use flashing patterns during courtship to attract potential mates. If a female elects to mate with the male, she will respond by reciprocating with a flash of her own. However, the males must beware, as females of other species such as P. pensylvanica can mimic these patterns to deceive, attract, and eat the males.
The biochemical reaction by which fireflies produce light occurs inside a specialized organ in their lower abdomen. This light-emitting organ utilizes the molecule luciferin, which is responsible for the production of visible light. In the presence of oxygen, magnesium ions, and the energy-rich molecule adenosine triphosphate (ATP), the enzyme luciferase converts luciferin into oxyluciferin, which emits light due to being in an electronically excited state. Upon emitting light, oxyluciferin is recycled and reconverted to luciferin so the process may continue. As with any biochemical process, the rate and capacity for bioluminescence in fireflies is dictated by the concentration of inputs as well as the rate at which byproducts are recycled. Scientists still do not fully understand how fireflies are able to produce bioluminescence with upwards of 80-90% energy efficiency. In comparison, the average incandescent light bulbs and LED lights emit only about 10% and 20% of their total electrical energy input as light, respectively. Since the first law of thermodynamics states that the total energy of the universe is constant and energy can neither be created nor destroyed, heat is the major byproduct in the reactions mentioned above.
To further study the interaction of firefly luciferase with its substrate, a student designs an experiment testing the rate at which the molecules involved are recycled. The student gathers 100 fireflies and separates them randomly into five equal experimental groups. Group A is not given any treatment and each subsequent group of fireflies is administered increasing concentrations of luciferin. Each group of fireflies is then released into separate pitch-black rooms that mimic the fireflies’ natural habitat. These rooms also contain light meters that measure the intensity of light emitted by the group of 20 fireflies as a whole. The results of this experiment are shown in Table 1.
Table 1
Treatment group |
Amount of light produced (lumens) |
Group A 0 mmol luciferase |
0.46 |
Group B 5 mmol luciferase |
0.52 |
Group C 10 mmol luciferase |
0.60 |
Group D 15 mmol luciferase |
0.57 |
Group E 20 mmol luciferase |
0.33 |
From the second paragraph, it can be inferred that __________.
Bioluminescence in fireflies defies the first law of thermodynamics
Incandescent lights produce more heat than LED lights
Scientists do not know the key molecules involved in firefly bioluminescence
Most fireflies produce bioluminescence within the 500-600nm (yellow-orange) range
Incandescent lights produce more heat than LED lights
This can be inferred since incandescent lights are less efficient than LED lights in converting electrical energy into light energy. The major byproduct of light-producing reactions is heat.
Example Question #87 : New Sat Reading
Individuals of the roughly 2,000 species in the family Lampyridae include those insects capable of producing bioluminescent light through a specific metabolic process. Though commonly referred to as fireflies or lightning bugs, these idiosyncratic creatures are more accurately categorized as winged beetles. Like their amphibian predators, most fireflies are crepuscular and are thus largely reliant on their bioluminescence to attract mates, find food, and warn predators of their potential poisonousness. Fireflies are known not to be desirable prey animals for most predators due to the presence of potentially harmful substances in their blood and bitter taste. During their larval stage, bioluminescence serves as the primary defense mechanism to fend off those predators. The diet of most fireflies includes a mixture of nectar, pollen, fireflies, and other insects. It has been shown that different species of fireflies exhibit unique bioluminescence patterns when attracting mates. For example, males of the species P. pyralis (the state insect of Tennessee) use flashing patterns during courtship to attract potential mates. If a female elects to mate with the male, she will respond by reciprocating with a flash of her own. However, the males must beware, as females of other species such as P. pensylvanica can mimic these patterns to deceive, attract, and eat the males.
The biochemical reaction by which fireflies produce light occurs inside a specialized organ in their lower abdomen. This light-emitting organ utilizes the molecule luciferin, which is responsible for the production of visible light. In the presence of oxygen, magnesium ions, and the energy-rich molecule adenosine triphosphate (ATP), the enzyme luciferase converts luciferin into oxyluciferin, which emits light due to being in an electronically excited state. Upon emitting light, oxyluciferin is recycled and reconverted to luciferin so the process may continue. As with any biochemical process, the rate and capacity for bioluminescence in fireflies is dictated by the concentration of inputs as well as the rate at which byproducts are recycled. Scientists still do not fully understand how fireflies are able to produce bioluminescence with upwards of 80-90% energy efficiency. In comparison, the average incandescent light bulbs and LED lights emit only about 10% and 20% of their total electrical energy input as light, respectively. Since the first law of thermodynamics states that the total energy of the universe is constant and energy can neither be created nor destroyed, heat is the major byproduct in the reactions mentioned above.
To further study the interaction of firefly luciferase with its substrate, a student designs an experiment testing the rate at which the molecules involved are recycled. The student gathers 100 fireflies and separates them randomly into five equal experimental groups. Group A is not given any treatment and each subsequent group of fireflies is administered increasing concentrations of luciferin. Each group of fireflies is then released into separate pitch-black rooms that mimic the fireflies’ natural habitat. These rooms also contain light meters that measure the intensity of light emitted by the group of 20 fireflies as a whole. The results of this experiment are shown in Table 1.
Table 1
Treatment group |
Amount of light produced (lumens) |
Group A 0 mmol luciferase |
0.46 |
Group B 5 mmol luciferase |
0.52 |
Group C 10 mmol luciferase |
0.60 |
Group D 15 mmol luciferase |
0.57 |
Group E 20 mmol luciferase |
0.33 |
Which choice provides the best evidence for the answer to the previous question?
“For example, males of the species P. pyralis (the state insect of Tennessee) use flashing patterns during courtship to attract potential mates.”
“Upon emitting light, oxyluciferin is recycled and reconverted to luciferin so the process may continue.”
“Scientists still do not fully understand how fireflies are able to produce bioluminescence with upwards of 80-90% energy efficiency.”
“In comparison, the average incandescent light bulbs and LED lights emit only about 10% and 20% of their total electrical energy input as light, respectively.”
“In comparison, the average incandescent light bulbs and LED lights emit only about 10% and 20% of their total electrical energy input as light, respectively.”
In the last sentence of paragraph 2, it is stated that “heat is the major byproduct in the reactions mentioned above.” Since incandescent lights are less efficient than LED lights in converting electrical energy into light energy, it can be inferred that they produce more heat as a byproduct/wasted energy. In a way, fireflies’ bioluminescence is so efficient because it has to be; extreme heat would be physically harmful to the firefly.
Example Question #88 : New Sat Reading
Individuals of the roughly 2,000 species in the family Lampyridae include those insects capable of producing bioluminescent light through a specific metabolic process. Though commonly referred to as fireflies or lightning bugs, these idiosyncratic creatures are more accurately categorized as winged beetles. Like their amphibian predators, most fireflies are crepuscular and are thus largely reliant on their bioluminescence to attract mates, find food, and warn predators of their potential poisonousness. Fireflies are known not to be desirable prey animals for most predators due to the presence of potentially harmful substances in their blood and bitter taste. During their larval stage, bioluminescence serves as the primary defense mechanism to fend off those predators. The diet of most fireflies includes a mixture of nectar, pollen, fireflies, and other insects. It has been shown that different species of fireflies exhibit unique bioluminescence patterns when attracting mates. For example, males of the species P. pyralis (the state insect of Tennessee) use flashing patterns during courtship to attract potential mates. If a female elects to mate with the male, she will respond by reciprocating with a flash of her own. However, the males must beware, as females of other species such as P. pensylvanica can mimic these patterns to deceive, attract, and eat the males.
The biochemical reaction by which fireflies produce light occurs inside a specialized organ in their lower abdomen. This light-emitting organ utilizes the molecule luciferin, which is responsible for the production of visible light. In the presence of oxygen, magnesium ions, and the energy-rich molecule adenosine triphosphate (ATP), the enzyme luciferase converts luciferin into oxyluciferin, which emits light due to being in an electronically excited state. Upon emitting light, oxyluciferin is recycled and reconverted to luciferin so the process may continue. As with any biochemical process, the rate and capacity for bioluminescence in fireflies is dictated by the concentration of inputs as well as the rate at which byproducts are recycled. Scientists still do not fully understand how fireflies are able to produce bioluminescence with upwards of 80-90% energy efficiency. In comparison, the average incandescent light bulbs and LED lights emit only about 10% and 20% of their total electrical energy input as light, respectively. Since the first law of thermodynamics states that the total energy of the universe is constant and energy can neither be created nor destroyed, heat is the major byproduct in the reactions mentioned above.
To further study the interaction of firefly luciferase with its substrate, a student designs an experiment testing the rate at which the molecules involved are recycled. The student gathers 100 fireflies and separates them randomly into five equal experimental groups. Group A is not given any treatment and each subsequent group of fireflies is administered increasing concentrations of luciferin. Each group of fireflies is then released into separate pitch-black rooms that mimic the fireflies’ natural habitat. These rooms also contain light meters that measure the intensity of light emitted by the group of 20 fireflies as a whole. The results of this experiment are shown in Table 1.
Table 1
Treatment group |
Amount of light produced (lumens) |
Group A 0 mmol luciferase |
0.46 |
Group B 5 mmol luciferase |
0.52 |
Group C 10 mmol luciferase |
0.60 |
Group D 15 mmol luciferase |
0.57 |
Group E 20 mmol luciferase |
0.33 |
In the first paragraph, the word crepuscular most closely means __________.
poisonous
cold-blooded
nocturnal
winged
nocturnal
Most fireflies are nocturnal, which allows them to maximize their usage of bioluminescence. It wouldn't make much sense to spend energy producing light during the daytime where it is minimally visible. Predators are typically active during the same time of day/night as their prey in order to increase their chance of successfully capturing them.
Example Question #89 : New Sat Reading
Individuals of the roughly 2,000 species in the family Lampyridae include those insects capable of producing bioluminescent light through a specific metabolic process. Though commonly referred to as fireflies or lightning bugs, these idiosyncratic creatures are more accurately categorized as winged beetles. Like their amphibian predators, most fireflies are crepuscular and are thus largely reliant on their bioluminescence to attract mates, find food, and warn predators of their potential poisonousness. Fireflies are known not to be desirable prey animals for most predators due to the presence of potentially harmful substances in their blood and bitter taste. During their larval stage, bioluminescence serves as the primary defense mechanism to fend off those predators. The diet of most fireflies includes a mixture of nectar, pollen, fireflies, and other insects. It has been shown that different species of fireflies exhibit unique bioluminescence patterns when attracting mates. For example, males of the species P. pyralis (the state insect of Tennessee) use flashing patterns during courtship to attract potential mates. If a female elects to mate with the male, she will respond by reciprocating with a flash of her own. However, the males must beware, as females of other species such as P. pensylvanica can mimic these patterns to deceive, attract, and eat the males.
The biochemical reaction by which fireflies produce light occurs inside a specialized organ in their lower abdomen. This light-emitting organ utilizes the molecule luciferin, which is responsible for the production of visible light. In the presence of oxygen, magnesium ions, and the energy-rich molecule adenosine triphosphate (ATP), the enzyme luciferase converts luciferin into oxyluciferin, which emits light due to being in an electronically excited state. Upon emitting light, oxyluciferin is recycled and reconverted to luciferin so the process may continue. As with any biochemical process, the rate and capacity for bioluminescence in fireflies is dictated by the concentration of inputs as well as the rate at which byproducts are recycled. Scientists still do not fully understand how fireflies are able to produce bioluminescence with upwards of 80-90% energy efficiency. In comparison, the average incandescent light bulbs and LED lights emit only about 10% and 20% of their total electrical energy input as light, respectively. Since the first law of thermodynamics states that the total energy of the universe is constant and energy can neither be created nor destroyed, heat is the major byproduct in the reactions mentioned above.
To further study the interaction of firefly luciferase with its substrate, a student designs an experiment testing the rate at which the molecules involved are recycled. The student gathers 100 fireflies and separates them randomly into five equal experimental groups. Group A is not given any treatment and each subsequent group of fireflies is administered increasing concentrations of luciferin. Each group of fireflies is then released into separate pitch-black rooms that mimic the fireflies’ natural habitat. These rooms also contain light meters that measure the intensity of light emitted by the group of 20 fireflies as a whole. The results of this experiment are shown in Table 1.
Table 1
Treatment group |
Amount of light produced (lumens) |
Group A 0 mmol luciferase |
0.46 |
Group B 5 mmol luciferase |
0.52 |
Group C 10 mmol luciferase |
0.60 |
Group D 15 mmol luciferase |
0.57 |
Group E 20 mmol luciferase |
0.33 |
The purpose of the second paragraph is most likely to __________.
question whether other bioluminescent animals are as efficient as fireflies
provide the reader with basic background information on lightning bugs
persuade the reader to switch to using LED lights in his/her everyday life
provide the reader with details of the scientific mechanism by which lightning bugs produce bioluminescent light
provide the reader with details of the scientific mechanism by which lightning bugs produce bioluminescent light
The second paragraph describes the biochemical reactions involved in producing bioluminescent light in fireflies. There is no mention of other animals’ efficiencies in comparison to fireflies. While it might seem logical to switch from incandescent lights to LED lights, the purpose of the sentence mentioning light efficiencies is to provide further detail on the process by which fireflies glow.
Example Question #90 : New Sat Reading
Individuals of the roughly 2,000 species in the family Lampyridae include those insects capable of producing bioluminescent light through a specific metabolic process. Though commonly referred to as fireflies or lightning bugs, these idiosyncratic creatures are more accurately categorized as winged beetles. Like their amphibian predators, most fireflies are crepuscular and are thus largely reliant on their bioluminescence to attract mates, find food, and warn predators of their potential poisonousness. Fireflies are known not to be desirable prey animals for most predators due to the presence of potentially harmful substances in their blood and bitter taste. During their larval stage, bioluminescence serves as the primary defense mechanism to fend off those predators. The diet of most fireflies includes a mixture of nectar, pollen, fireflies, and other insects. It has been shown that different species of fireflies exhibit unique bioluminescence patterns when attracting mates. For example, males of the species P. pyralis (the state insect of Tennessee) use flashing patterns during courtship to attract potential mates. If a female elects to mate with the male, she will respond by reciprocating with a flash of her own. However, the males must beware, as females of other species such as P. pensylvanica can mimic these patterns to deceive, attract, and eat the males.
The biochemical reaction by which fireflies produce light occurs inside a specialized organ in their lower abdomen. This light-emitting organ utilizes the molecule luciferin, which is responsible for the production of visible light. In the presence of oxygen, magnesium ions, and the energy-rich molecule adenosine triphosphate (ATP), the enzyme luciferase converts luciferin into oxyluciferin, which emits light due to being in an electronically excited state. Upon emitting light, oxyluciferin is recycled and reconverted to luciferin so the process may continue. As with any biochemical process, the rate and capacity for bioluminescence in fireflies is dictated by the concentration of inputs as well as the rate at which byproducts are recycled. Scientists still do not fully understand how fireflies are able to produce bioluminescence with upwards of 80-90% energy efficiency. In comparison, the average incandescent light bulbs and LED lights emit only about 10% and 20% of their total electrical energy input as light, respectively. Since the first law of thermodynamics states that the total energy of the universe is constant and energy can neither be created nor destroyed, heat is the major byproduct in the reactions mentioned above.
To further study the interaction of firefly luciferase with its substrate, a student designs an experiment testing the rate at which the molecules involved are recycled. The student gathers 100 fireflies and separates them randomly into five equal experimental groups. Group A is not given any treatment and each subsequent group of fireflies is administered increasing concentrations of luciferin. Each group of fireflies is then released into separate pitch-black rooms that mimic the fireflies’ natural habitat. These rooms also contain light meters that measure the intensity of light emitted by the group of 20 fireflies as a whole. The results of this experiment are shown in Table 1.
Table 1
Treatment group |
Amount of light produced (lumens) |
Group A 0 mmol luciferase |
0.46 |
Group B 5 mmol luciferase |
0.52 |
Group C 10 mmol luciferase |
0.60 |
Group D 15 mmol luciferase |
0.57 |
Group E 20 mmol luciferase |
0.33 |
With which of the following statements would the author most likely agree?
Fireflies are not true insects.
Farming fireflies is difficult due to their cannibalistic tendencies.
Efforts should be made to preserve the firefly population.
Fireflies typically only live in dense forests.
Farming fireflies is difficult due to their cannibalistic tendencies.
The first paragraph describes the diet of most fireflies, which includes other fireflies. Also in paragraph one, there is an example of a firefly using its bioluminescence to hunt another fireflies. The author does not make any claims about fireflies’ natural habitat, nor about preserving fireflies. In the first sentence, the author directly states that fireflies are insects.