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Example Question #41 : New Sat
Passage adapted from “The Dead” in Dubliners by James Joyce (1915)
She was fast asleep.
Gabriel, leaning on his elbow, looked for a few moments unresentfully on her tangled hair and half-open mouth, listening to her deep-drawn breath. So she had had that romance in her life: a man had died for her sake. It hardly pained him now to think how poor a part he, her husband, had played in her life. He watched her while she slept as though he and she had never lived together as man and wife. His curious eyes rested long upon her face and on her hair: and, as he thought of what she must have been then, in that time of her first girlish beauty, a strange friendly pity for her entered his soul. He did no like to say even to himself that her face was no longer beautiful but he knew that it was no longer the face for which Michael Furey had braved death.
Perhaps she had not told him all the story. His eyes moved to the chair over which she had thrown some of her clothes. A petticoat string dangled to the floor. One boot stood upright, its limp upper fallen: the fellow of it lay upon its side. He wondered at his riot of emotions of an hour before. From what had it proceeded? From his aunt’s supper, from his own foolish speech, from the wine and dancing, the merry-making when saying good-night in the hall, the pleasure of the walk along the river in the snow. Poor Aunt Julia! She, too, would soon be a shade with the shade of Patrick Morkan and his horse. He had caught that haggard look upon her face for a moment when she was singing Arrayed for the Bridal. Soon, perhaps, he would be sitting in that same drawing-room, dressed in black, his silk hat on his knees. The blinds would be drawn down and Aunt Kate would be sitting beside him, crying and blowing her nose and telling him how Julia had died. He would cast about in his mind for some words that might console her, and would find only lame and useless ones. Yes, yes: that would happen very soon.
The air of the room chilled his shoulders. He stretched himself cautiously along under the sheets and lay down beside his wife. One by one they were all becoming shades. Better pass boldly into that other world, in the full glory of some passion, than fade and wither dismally with age. He thought of how she who lay beside him had locked in her heart for so many years that image of her lover’s eyes when he had told her that he did not wish to live.
Generous tears filled Gabriel’s eyes. He had never felt like that himself towards any woman but he knew that such a feeling must be love. The tears gathered more thickly in his eyes and in the partial darkness he imagined he saw the form of a young man standing under a dripping tree. Other forms were near. His soul had approached that region where dwell the vast hosts of the dead. He was conscious of, but could not apprehend, their wayward and flickering existence. His own identity was fading out into a grey impalpable world: the solid world itself which these dead had one time reared and lived in was dissolving and dwindling.
A few light taps upon the pane made him turn to the window. It had begun to snow again. He watched sleepily the flakes, silver and dark, falling obliquely against the lamplight. The time had come for him to set out on his journey westward. Yes, the newspapers were right: snow was general all over Ireland. It was falling on every part of the dark central plain, on the treeless hills, falling softly upon the hill where Michael Furey lay buried. It lay thickly drifted on the crooked crosses and headstones, on the spears of the little gate, on the barren thorns. His soul swooned slowly as he heard the snow falling faintly through the universe and faintly falling, like the descent of their last end, upon all the living and the dead.
Which of the following inferences about Gabriel's relationship with his wife is the most reasonable to make?
Gabriel and his wife have an open marriage in which they are both allowed, within the bounds of the marriage, to take other partners
Gabriel and his wife have an arranged marriage of convenience
Gabriel's marriage is one in which important events and dynamics go undiscussed
Gabriel's wife is having an affair
Gabriel's marriage has always been unambiguously loveless
Gabriel's marriage is one in which important events and dynamics go undiscussed
The MOST reasonable inference to make about Gabriel's marriage from this text is the most basic one provided, namely that the marriage is one in which important things go unsaid. It is important to be careful when making inferences, it is equally important to have direct textual evidence for your inference (in this case we are directly told that Gabriel and his wife have not spoken of an important romantic interest from her past), and to select an inference that is limited enough in its scope so as not to make an inference that is not directly suggested by the text. Here, the idea that "Gabriel's marriage has always been unambiguously loveless" is too strongly worded, and while a not crazy inference, is not as reasonable or based on actual textual content as is the more mildly stated option. One might suspect that Gabriel's wife of having had an affair, but since this is not stated in the text (the Furey relationship pre-dates her marriage) this is purely suppositional and cannot be the right answer to this question.
Example Question #42 : New Sat
Passage adapted from “The Dead” in Dubliners by James Joyce (1915)
She was fast asleep.
Gabriel, leaning on his elbow, looked for a few moments unresentfully on her tangled hair and half-open mouth, listening to her deep-drawn breath. So she had had that romance in her life: a man had died for her sake. It hardly pained him now to think how poor a part he, her husband, had played in her life. He watched her while she slept as though he and she had never lived together as man and wife. His curious eyes rested long upon her face and on her hair: and, as he thought of what she must have been then, in that time of her first girlish beauty, a strange friendly pity for her entered his soul. He did no like to say even to himself that her face was no longer beautiful but he knew that it was no longer the face for which Michael Furey had braved death.
Perhaps she had not told him all the story. His eyes moved to the chair over which she had thrown some of her clothes. A petticoat string dangled to the floor. One boot stood upright, its limp upper fallen: the fellow of it lay upon its side. He wondered at his riot of emotions of an hour before. From what had it proceeded? From his aunt’s supper, from his own foolish speech, from the wine and dancing, the merry-making when saying good-night in the hall, the pleasure of the walk along the river in the snow. Poor Aunt Julia! She, too, would soon be a shade with the shade of Patrick Morkan and his horse. He had caught that haggard look upon her face for a moment when she was singing Arrayed for the Bridal. Soon, perhaps, he would be sitting in that same drawing-room, dressed in black, his silk hat on his knees. The blinds would be drawn down and Aunt Kate would be sitting beside him, crying and blowing her nose and telling him how Julia had died. He would cast about in his mind for some words that might console her, and would find only lame and useless ones. Yes, yes: that would happen very soon.
The air of the room chilled his shoulders. He stretched himself cautiously along under the sheets and lay down beside his wife. One by one they were all becoming shades. Better pass boldly into that other world, in the full glory of some passion, than fade and wither dismally with age. He thought of how she who lay beside him had locked in her heart for so many years that image of her lover’s eyes when he had told her that he did not wish to live.
Generous tears filled Gabriel’s eyes. He had never felt like that himself towards any woman but he knew that such a feeling must be love. The tears gathered more thickly in his eyes and in the partial darkness he imagined he saw the form of a young man standing under a dripping tree. Other forms were near. His soul had approached that region where dwell the vast hosts of the dead. He was conscious of, but could not apprehend, their wayward and flickering existence. His own identity was fading out into a grey impalpable world: the solid world itself which these dead had one time reared and lived in was dissolving and dwindling.
A few light taps upon the pane made him turn to the window. It had begun to snow again. He watched sleepily the flakes, silver and dark, falling obliquely against the lamplight. The time had come for him to set out on his journey westward. Yes, the newspapers were right: snow was general all over Ireland. It was falling on every part of the dark central plain, on the treeless hills, falling softly upon the hill where Michael Furey lay buried. It lay thickly drifted on the crooked crosses and headstones, on the spears of the little gate, on the barren thorns. His soul swooned slowly as he heard the snow falling faintly through the universe and faintly falling, like the descent of their last end, upon all the living and the dead.
In what season is this passage set?
Fall
Winter
Spring
Summer
The season is not clearly indicated in this passage
Winter
This passage is set in the winter. There is the mention that it has "begun to snow again" suggesting not only that it is now snowing, but that it has been snowing before, to the extent that "snow was general all over Ireland." Even a cursory knowledge of European geography will tell us that it is clearly winter.
Example Question #43 : New Sat
Passage adapted from “The Dead” in Dubliners by James Joyce (1915)
She was fast asleep.
Gabriel, leaning on his elbow, looked for a few moments unresentfully on her tangled hair and half-open mouth, listening to her deep-drawn breath. So she had had that romance in her life: a man had died for her sake. It hardly pained him now to think how poor a part he, her husband, had played in her life. He watched her while she slept as though he and she had never lived together as man and wife. His curious eyes rested long upon her face and on her hair: and, as he thought of what she must have been then, in that time of her first girlish beauty, a strange friendly pity for her entered his soul. He did no like to say even to himself that her face was no longer beautiful but he knew that it was no longer the face for which Michael Furey had braved death.
Perhaps she had not told him all the story. His eyes moved to the chair over which she had thrown some of her clothes. A petticoat string dangled to the floor. One boot stood upright, its limp upper fallen: the fellow of it lay upon its side. He wondered at his riot of emotions of an hour before. From what had it proceeded? From his aunt’s supper, from his own foolish speech, from the wine and dancing, the merry-making when saying good-night in the hall, the pleasure of the walk along the river in the snow. Poor Aunt Julia! She, too, would soon be a shade with the shade of Patrick Morkan and his horse. He had caught that haggard look upon her face for a moment when she was singing Arrayed for the Bridal. Soon, perhaps, he would be sitting in that same drawing-room, dressed in black, his silk hat on his knees. The blinds would be drawn down and Aunt Kate would be sitting beside him, crying and blowing her nose and telling him how Julia had died. He would cast about in his mind for some words that might console her, and would find only lame and useless ones. Yes, yes: that would happen very soon.
The air of the room chilled his shoulders. He stretched himself cautiously along under the sheets and lay down beside his wife. One by one they were all becoming shades. Better pass boldly into that other world, in the full glory of some passion, than fade and wither dismally with age. He thought of how she who lay beside him had locked in her heart for so many years that image of her lover’s eyes when he had told her that he did not wish to live.
Generous tears filled Gabriel’s eyes. He had never felt like that himself towards any woman but he knew that such a feeling must be love. The tears gathered more thickly in his eyes and in the partial darkness he imagined he saw the form of a young man standing under a dripping tree. Other forms were near. His soul had approached that region where dwell the vast hosts of the dead. He was conscious of, but could not apprehend, their wayward and flickering existence. His own identity was fading out into a grey impalpable world: the solid world itself which these dead had one time reared and lived in was dissolving and dwindling.
A few light taps upon the pane made him turn to the window. It had begun to snow again. He watched sleepily the flakes, silver and dark, falling obliquely against the lamplight. The time had come for him to set out on his journey westward. Yes, the newspapers were right: snow was general all over Ireland. It was falling on every part of the dark central plain, on the treeless hills, falling softly upon the hill where Michael Furey lay buried. It lay thickly drifted on the crooked crosses and headstones, on the spears of the little gate, on the barren thorns. His soul swooned slowly as he heard the snow falling faintly through the universe and faintly falling, like the descent of their last end, upon all the living and the dead.
What is the best evidence for the answer to the previous question querying the season in which the passage is set?
Better pass boldly into that other world
"Yes, yes: that would happen very soon"
The season is not sufficiently indicated in this text to make an assertion
"a grey impalpable world"
"snow was general all over Ireland"
"snow was general all over Ireland"
This passage is set in the winter. There is the mention that it has "begun to snow again" suggesting not only that it is now snowing, but that it has been snowing before, to the extent that "snow was general all over Ireland." Even a cursory knowledge of European geography will tell us that it is clearly winter.
Example Question #44 : New Sat
Phosphorus is a key component for life on Earth; it performs essential roles in respiration, photosynthesis, and the decomposition of organic material. Phosphorus is primarily acquired by plants in the inorganic, ionic forms, which are found in soil solutions at concentrations of only a few parts per million. Plants use methods of diffusion and active transport to absorb phosphorus at the surface of their roots.
Phosphorus is abundant in soils; however, it is often unavailable to plants because it forms insoluble complexes with positively charged cations. This occurs when negatively charged phosphorus ions bind to positive cations in the soil (i.e. opposites attract). Enzymes such as acid phosphatases play a critical role in the acquisition and manipulation of phosphorus in plants. It has been found that when soils possess low levels of free phosphorus, plants are stimulated to produce acid phosphatase enzymes, which release inorganic phosphorus in the soil.
Plants need nutrients such as phosphorus to grow and proliferate; therefore, understanding how this species uses phosphorus could lead to conservation practices to limits this invasive species’ impact on the environment. A group of scientists wanted to investigate the relationship between plant enzyme activity and phosphorus levels in aquatic biomes. This investigation was targeted at studying the invasive Eurasian milfoil, Myriophyllum spicatum. In doing so, scientists believed that they could control the spread of the plant into neighboring waters if they were able to limit the nutrients in its environment. A study was performed in order to explore how phosphorus concentration in freshwater ecosystems affects phosphorus cycling and plant enzyme production. In order to determine if there was a relationship between the phosphatase activity and concentration of phosphorus in the sediment and water column of specific sites, researchers measured the respective phosphorus concentrations and enzyme activities.
In this study, three standing ponds were sampled at six different time periods in the same year from July to December. The phosphorus content of each sample was determined through an ascorbic acid assay. Sediment collections were divided into samples weighing one sixteenth of a gram using coning and quartering techniques. These samples underwent a persulfate digestion and were vacuum filtered to remove excess sediment. Last, the samples were diluted and analyzed for phosphorus content using the ascorbic acid procedure. The solutions’ ability to absorb specific wavelengths of light was measured using a spectrophotometer set at an absorbance of 880 nanometers. After the sediment phosphorus content of each site was determined, scientists decided to determine the concentration of phosphorus releasing enzymes through an alkaline phosphatase assay. One to two milliliters of collected sediment was centrifuged until the sediment formed a pellet. The scientists chemically induced and observed a reaction between the sediment enzymes and insoluble phosphorus compounds present in an artificial substrate. Enzymes speed up chemical reactions by binding to substrates and releasing their constituent parts: in this case phosphorus and an unknown cation. After this reaction was halted, the samples were centrifuged and their absorbance was measured with a spectrophotometer set at 420 nanometers. This identified the concentration of phosphatase enzymes present in each sample. Now, scientists were able to compare the correlation between phosphorus levels and plant enzymes in the soil.
An exponential regression analysis indicated that there was a significant relationship between phosphatase activity and sediment phosphorus concentration (see Figure 1). The trend in the exponential regression analysis showed evidence of an inducible expression between phosphorus substrate and phosphatase enzymes. In other words, phosphorus is often abundant in soils, but is unavailable due to its formation into insoluble complexes with aluminum and iron. As a result, acid phosphatase enzymes break down these insoluble complexes and release phosphorus for plant acquisition and usage; therefore, phosphorus rich environments should possess greater phosphatase activity.
This study supported the expectation that there would be a relationship between phosphatase activities and sediment phosphorus concentration (i.e. higher phosphorus concentrations increase yields of plants, while phosphorus limitation decreases the productivity of invasive species). The scientists hoped to use the findings in this study for the development of bioremediation techniques aimed at controlling invasive species through green management practices.
Figure 1 represents a correlation between phosphorus concentration and phosphatase activity in all the sites across all time periods.
Which choice provides the best evidence for the answer to the previous question?
"In this study, three standing ponds were sampled. . . phosphorus content of each sample was determined through an ascorbic acid assay"
"An exponential regression analysis indicated . . . relationship between phosphatase activity and sediment phosphorus concentration"
"This study supported the expectation that there would be a relationship between phosphatase activities and sediment phosphorus concentration. . . aimed at controlling invasive species through green management practices"
"A group of scientists wanted to investigate the relationship between plant enzyme activity and phosphorus levels. . . studying the invasive Eurasian milfoil, Myriophyllum spicatum"
"Phosphorus is a key component for life on Earth. . . found in soil solutions at concentrations of only a few parts per million"
"This study supported the expectation that there would be a relationship between phosphatase activities and sediment phosphorus concentration. . . aimed at controlling invasive species through green management practices"
"This study supported the expectation that there would be a relationship between phosphatase activities and sediment phosphorus concentration. . . aimed at controlling invasive species through green management practices" is the correct choice. This is the best choice because it best identifies the shift in focus that has occurred throughout the passage. This section of the passage identifies that the scientists progressed from experimentation to the possible applicability of results in "green" bioremediation techniques.
Example Question #45 : New Sat
Phosphorus is a key component for life on Earth; it performs essential roles in respiration, photosynthesis, and the decomposition of organic material. Phosphorus is primarily acquired by plants in the inorganic, ionic forms, which are found in soil solutions at concentrations of only a few parts per million. Plants use methods of diffusion and active transport to absorb phosphorus at the surface of their roots.
Phosphorus is abundant in soils; however, it is often unavailable to plants because it forms insoluble complexes with positively charged cations. This occurs when negatively charged phosphorus ions bind to positive cations in the soil (i.e. opposites attract). Enzymes such as acid phosphatases play a critical role in the acquisition and manipulation of phosphorus in plants. It has been found that when soils possess low levels of free phosphorus, plants are stimulated to produce acid phosphatase enzymes, which release inorganic phosphorus in the soil.
Plants need nutrients such as phosphorus to grow and proliferate; therefore, understanding how this species uses phosphorus could lead to conservation practices to limits this invasive species’ impact on the environment. A group of scientists wanted to investigate the relationship between plant enzyme activity and phosphorus levels in aquatic biomes. This investigation was targeted at studying the invasive Eurasian milfoil, Myriophyllum spicatum. In doing so, scientists believed that they could control the spread of the plant into neighboring waters if they were able to limit the nutrients in its environment. A study was performed in order to explore how phosphorus concentration in freshwater ecosystems affects phosphorus cycling and plant enzyme production. In order to determine if there was a relationship between the phosphatase activity and concentration of phosphorus in the sediment and water column of specific sites, researchers measured the respective phosphorus concentrations and enzyme activities.
In this study, three standing ponds were sampled at six different time periods in the same year from July to December. The phosphorus content of each sample was determined through an ascorbic acid assay. Sediment collections were divided into samples weighing one sixteenth of a gram using coning and quartering techniques. These samples underwent a persulfate digestion and were vacuum filtered to remove excess sediment. Last, the samples were diluted and analyzed for phosphorus content using the ascorbic acid procedure. The solutions’ ability to absorb specific wavelengths of light was measured using a spectrophotometer set at an absorbance of 880 nanometers. After the sediment phosphorus content of each site was determined, scientists decided to determine the concentration of phosphorus releasing enzymes through an alkaline phosphatase assay. One to two milliliters of collected sediment was centrifuged until the sediment formed a pellet. The scientists chemically induced and observed a reaction between the sediment enzymes and insoluble phosphorus compounds present in an artificial substrate. Enzymes speed up chemical reactions by binding to substrates and releasing their constituent parts: in this case phosphorus and an unknown cation. After this reaction was halted, the samples were centrifuged and their absorbance was measured with a spectrophotometer set at 420 nanometers. This identified the concentration of phosphatase enzymes present in each sample. Now, scientists were able to compare the correlation between phosphorus levels and plant enzymes in the soil.
An exponential regression analysis indicated that there was a significant relationship between phosphatase activity and sediment phosphorus concentration (see Figure 1). The trend in the exponential regression analysis showed evidence of an inducible expression between phosphorus substrate and phosphatase enzymes. In other words, phosphorus is often abundant in soils, but is unavailable due to its formation into insoluble complexes with aluminum and iron. As a result, acid phosphatase enzymes break down these insoluble complexes and release phosphorus for plant acquisition and usage; therefore, phosphorus rich environments should possess greater phosphatase activity.
This study supported the expectation that there would be a relationship between phosphatase activities and sediment phosphorus concentration (i.e. higher phosphorus concentrations increase yields of plants, while phosphorus limitation decreases the productivity of invasive species). The scientists hoped to use the findings in this study for the development of bioremediation techniques aimed at controlling invasive species through green management practices.
Figure 1 represents a correlation between phosphorus concentration and phosphatase activity in all the sites across all time periods.
Which of the following identifies the shift in focus of the passage from its beginning to its end?
The focus shifts from investigating pollution in rural area to bioremediation in cities
The focus shifts from plants to invasive species
The focus shifts from the study of Eurasian milfoils to the study of agricultural crops
The focus shifts from experimentation to application of scientific knowledge
The focus shifts from studying phosphorus concentrations to phosphatase enzymes
The focus shifts from experimentation to application of scientific knowledge
The focus of this passage follows the scientific method. In the first two paragraphs, general knowledge about a particular phenomenon was discussed. In paragraphs three and four, the scientists' experiment was discussed, while their analysis was covered in the fifth paragraph. Last, the conclusion and applicability of their results were discussed in the final paragraph. The focus shifts from experimentation to applicability of the study's results; therefore, "the focus shifts from experimentation to application of scientific knowledge" is the correct choice.
Example Question #46 : New Sat
Phosphorus is a key component for life on Earth; it performs essential roles in respiration, photosynthesis, and the decomposition of organic material. Phosphorus is primarily acquired by plants in the inorganic, ionic forms, which are found in soil solutions at concentrations of only a few parts per million. Plants use methods of diffusion and active transport to absorb phosphorus at the surface of their roots.
Phosphorus is abundant in soils; however, it is often unavailable to plants because it forms insoluble complexes with positively charged cations. This occurs when negatively charged phosphorus ions bind to positive cations in the soil (i.e. opposites attract). Enzymes such as acid phosphatases play a critical role in the acquisition and manipulation of phosphorus in plants. It has been found that when soils possess low levels of free phosphorus, plants are stimulated to produce acid phosphatase enzymes, which release inorganic phosphorus in the soil.
Plants need nutrients such as phosphorus to grow and proliferate; therefore, understanding how this species uses phosphorus could lead to conservation practices to limits this invasive species’ impact on the environment. A group of scientists wanted to investigate the relationship between plant enzyme activity and phosphorus levels in aquatic biomes. This investigation was targeted at studying the invasive Eurasian milfoil, Myriophyllum spicatum. In doing so, scientists believed that they could control the spread of the plant into neighboring waters if they were able to limit the nutrients in its environment. A study was performed in order to explore how phosphorus concentration in freshwater ecosystems affects phosphorus cycling and plant enzyme production. In order to determine if there was a relationship between the phosphatase activity and concentration of phosphorus in the sediment and water column of specific sites, researchers measured the respective phosphorus concentrations and enzyme activities.
In this study, three standing ponds were sampled at six different time periods in the same year from July to December. The phosphorus content of each sample was determined through an ascorbic acid assay. Sediment collections were divided into samples weighing one sixteenth of a gram using coning and quartering techniques. These samples underwent a persulfate digestion and were vacuum filtered to remove excess sediment. Last, the samples were diluted and analyzed for phosphorus content using the ascorbic acid procedure. The solutions’ ability to absorb specific wavelengths of light was measured using a spectrophotometer set at an absorbance of 880 nanometers. After the sediment phosphorus content of each site was determined, scientists decided to determine the concentration of phosphorus releasing enzymes through an alkaline phosphatase assay. One to two milliliters of collected sediment was centrifuged until the sediment formed a pellet. The scientists chemically induced and observed a reaction between the sediment enzymes and insoluble phosphorus compounds present in an artificial substrate. Enzymes speed up chemical reactions by binding to substrates and releasing their constituent parts: in this case phosphorus and an unknown cation. After this reaction was halted, the samples were centrifuged and their absorbance was measured with a spectrophotometer set at 420 nanometers. This identified the concentration of phosphatase enzymes present in each sample. Now, scientists were able to compare the correlation between phosphorus levels and plant enzymes in the soil.
An exponential regression analysis indicated that there was a significant relationship between phosphatase activity and sediment phosphorus concentration (see Figure 1). The trend in the exponential regression analysis showed evidence of an inducible expression between phosphorus substrate and phosphatase enzymes. In other words, phosphorus is often abundant in soils, but is unavailable due to its formation into insoluble complexes with aluminum and iron. As a result, acid phosphatase enzymes break down these insoluble complexes and release phosphorus for plant acquisition and usage; therefore, phosphorus rich environments should possess greater phosphatase activity.
This study supported the expectation that there would be a relationship between phosphatase activities and sediment phosphorus concentration (i.e. higher phosphorus concentrations increase yields of plants, while phosphorus limitation decreases the productivity of invasive species). The scientists hoped to use the findings in this study for the development of bioremediation techniques aimed at controlling invasive species through green management practices.
Figure 1 represents a correlation between phosphorus concentration and phosphatase activity in all the sites across all time periods.
What is the main idea of this passage?
An in depth analysis of the mechanics of nutrient acquisition in Myriophyllum spicatum
A discourse on the dangers of soil pollution in rural communities
An investigation on how phosphates form insoluble compounds with cations in the soil
An investigation of the correlation between enzyme activities and phosphorus concentrations
An attempt to develop a bioremediation technique to control invasive species
An investigation of the correlation between enzyme activities and phosphorus concentrations
The main idea of this passage was to investigate the correlation between enzyme activities and phosphorus concentrations. The researchers are studying an invasive species in order to develop a correlation between phosphatase enzyme activities and phosphorus concentrations in sediment samples. They hope to apply this information to develop a bioremediation technique targeted at the control of invasive species; however, this is not the main idea of the passage. The other components of the passage hint at parts of it but not its main idea. The main idea of this passage is an exploration of the mechanics of the relationship between phosphorus in the soil and plant enzymes.
Example Question #47 : New Sat
Phosphorus is a key component for life on Earth; it performs essential roles in respiration, photosynthesis, and the decomposition of organic material. Phosphorus is primarily acquired by plants in the inorganic, ionic forms, which are found in soil solutions at concentrations of only a few parts per million. Plants use methods of diffusion and active transport to absorb phosphorus at the surface of their roots.
Phosphorus is abundant in soils; however, it is often unavailable to plants because it forms insoluble complexes with positively charged cations. This occurs when negatively charged phosphorus ions bind to positive cations in the soil (i.e. opposites attract). Enzymes such as acid phosphatases play a critical role in the acquisition and manipulation of phosphorus in plants. It has been found that when soils possess low levels of free phosphorus, plants are stimulated to produce acid phosphatase enzymes, which release inorganic phosphorus in the soil.
Plants need nutrients such as phosphorus to grow and proliferate; therefore, understanding how this species uses phosphorus could lead to conservation practices to limits this invasive species’ impact on the environment. A group of scientists wanted to investigate the relationship between plant enzyme activity and phosphorus levels in aquatic biomes. This investigation was targeted at studying the invasive Eurasian milfoil, Myriophyllum spicatum. In doing so, scientists believed that they could control the spread of the plant into neighboring waters if they were able to limit the nutrients in its environment. A study was performed in order to explore how phosphorus concentration in freshwater ecosystems affects phosphorus cycling and plant enzyme production. In order to determine if there was a relationship between the phosphatase activity and concentration of phosphorus in the sediment and water column of specific sites, researchers measured the respective phosphorus concentrations and enzyme activities.
In this study, three standing ponds were sampled at six different time periods in the same year from July to December. The phosphorus content of each sample was determined through an ascorbic acid assay. Sediment collections were divided into samples weighing one sixteenth of a gram using coning and quartering techniques. These samples underwent a persulfate digestion and were vacuum filtered to remove excess sediment. Last, the samples were diluted and analyzed for phosphorus content using the ascorbic acid procedure. The solutions’ ability to absorb specific wavelengths of light was measured using a spectrophotometer set at an absorbance of 880 nanometers. After the sediment phosphorus content of each site was determined, scientists decided to determine the concentration of phosphorus releasing enzymes through an alkaline phosphatase assay. One to two milliliters of collected sediment was centrifuged until the sediment formed a pellet. The scientists chemically induced and observed a reaction between the sediment enzymes and insoluble phosphorus compounds present in an artificial substrate. Enzymes speed up chemical reactions by binding to substrates and releasing their constituent parts: in this case phosphorus and an unknown cation. After this reaction was halted, the samples were centrifuged and their absorbance was measured with a spectrophotometer set at 420 nanometers. This identified the concentration of phosphatase enzymes present in each sample. Now, scientists were able to compare the correlation between phosphorus levels and plant enzymes in the soil.
An exponential regression analysis indicated that there was a significant relationship between phosphatase activity and sediment phosphorus concentration (see Figure 1). The trend in the exponential regression analysis showed evidence of an inducible expression between phosphorus substrate and phosphatase enzymes. In other words, phosphorus is often abundant in soils, but is unavailable due to its formation into insoluble complexes with aluminum and iron. As a result, acid phosphatase enzymes break down these insoluble complexes and release phosphorus for plant acquisition and usage; therefore, phosphorus rich environments should possess greater phosphatase activity.
This study supported the expectation that there would be a relationship between phosphatase activities and sediment phosphorus concentration (i.e. higher phosphorus concentrations increase yields of plants, while phosphorus limitation decreases the productivity of invasive species). The scientists hoped to use the findings in this study for the development of bioremediation techniques aimed at controlling invasive species through green management practices.
Figure 1 represents a correlation between phosphorus concentration and phosphatase activity in all the sites across all time periods.
In the study, scientists set the spectrophotometer to __________ in order to measure a sample's absorbance and subsequent phosphorus concentration.
None of these
The fourth pragraph of the passage stated the following: "Last, the samples were diluted and analyzed for phosphorus content using the ascorbic acid procedure. The solutions’ ability to absorb specific wavelengths of light was measured using a spectrophotometer set at an absorbance of 880 nanometers." From this information we can gather that the scientists set the spectrophotometer to the following wavelength:
Example Question #41 : New Sat
Phosphorus is a key component for life on Earth; it performs essential roles in respiration, photosynthesis, and the decomposition of organic material. Phosphorus is primarily acquired by plants in the inorganic, ionic forms, which are found in soil solutions at concentrations of only a few parts per million. Plants use methods of diffusion and active transport to absorb phosphorus at the surface of their roots.
Phosphorus is abundant in soils; however, it is often unavailable to plants because it forms insoluble complexes with positively charged cations. This occurs when negatively charged phosphorus ions bind to positive cations in the soil (i.e. opposites attract). Enzymes such as acid phosphatases play a critical role in the acquisition and manipulation of phosphorus in plants. It has been found that when soils possess low levels of free phosphorus, plants are stimulated to produce acid phosphatase enzymes, which release inorganic phosphorus in the soil.
Plants need nutrients such as phosphorus to grow and proliferate; therefore, understanding how this species uses phosphorus could lead to conservation practices to limits this invasive species’ impact on the environment. A group of scientists wanted to investigate the relationship between plant enzyme activity and phosphorus levels in aquatic biomes. This investigation was targeted at studying the invasive Eurasian milfoil, Myriophyllum spicatum. In doing so, scientists believed that they could control the spread of the plant into neighboring waters if they were able to limit the nutrients in its environment. A study was performed in order to explore how phosphorus concentration in freshwater ecosystems affects phosphorus cycling and plant enzyme production. In order to determine if there was a relationship between the phosphatase activity and concentration of phosphorus in the sediment and water column of specific sites, researchers measured the respective phosphorus concentrations and enzyme activities.
In this study, three standing ponds were sampled at six different time periods in the same year from July to December. The phosphorus content of each sample was determined through an ascorbic acid assay. Sediment collections were divided into samples weighing one sixteenth of a gram using coning and quartering techniques. These samples underwent a persulfate digestion and were vacuum filtered to remove excess sediment. Last, the samples were diluted and analyzed for phosphorus content using the ascorbic acid procedure. The solutions’ ability to absorb specific wavelengths of light was measured using a spectrophotometer set at an absorbance of 880 nanometers. After the sediment phosphorus content of each site was determined, scientists decided to determine the concentration of phosphorus releasing enzymes through an alkaline phosphatase assay. One to two milliliters of collected sediment was centrifuged until the sediment formed a pellet. The scientists chemically induced and observed a reaction between the sediment enzymes and insoluble phosphorus compounds present in an artificial substrate. Enzymes speed up chemical reactions by binding to substrates and releasing their constituent parts: in this case phosphorus and an unknown cation. After this reaction was halted, the samples were centrifuged and their absorbance was measured with a spectrophotometer set at 420 nanometers. This identified the concentration of phosphatase enzymes present in each sample. Now, scientists were able to compare the correlation between phosphorus levels and plant enzymes in the soil.
An exponential regression analysis indicated that there was a significant relationship between phosphatase activity and sediment phosphorus concentration (see Figure 1). The trend in the exponential regression analysis showed evidence of an inducible expression between phosphorus substrate and phosphatase enzymes. In other words, phosphorus is often abundant in soils, but is unavailable due to its formation into insoluble complexes with aluminum and iron. As a result, acid phosphatase enzymes break down these insoluble complexes and release phosphorus for plant acquisition and usage; therefore, phosphorus rich environments should possess greater phosphatase activity.
This study supported the expectation that there would be a relationship between phosphatase activities and sediment phosphorus concentration (i.e. higher phosphorus concentrations increase yields of plants, while phosphorus limitation decreases the productivity of invasive species). The scientists hoped to use the findings in this study for the development of bioremediation techniques aimed at controlling invasive species through green management practices.
Figure 1 represents a correlation between phosphorus concentration and phosphatase activity in all the sites across all time periods.
The underlined portion of the text most likely implies which of the following?
Phosphorus is readily being acquired via passive transport and diffusion
The presence of enzymes stimulates phosphorus to bind to the soil
The invasive species is being stunted by nutrient deprivation
Enzyme activities cause phosphorus to bind to the soil and form insoluble compounds
The presence of bound phosphorus in the soil stimulates enzyme activities
The presence of bound phosphorus in the soil stimulates enzyme activities
"The presence of bound phosphorus in the soil stimulates enzyme activities" is the correct answer. Bound/insoluble phosphorus compounds act as substrates. According to the passage, "Enzymes speed up chemical reactions by binding to substrates and releasing their constituent parts: in this case phosphorus and an unknown cation." Using this information we can determine that the enzyme needs to have a substrate in order to release phosphorus; therefore, bound phosphorus induces or stimulates enzyme production and activities within the soil.
Example Question #49 : New Sat
Phosphorus is a key component for life on Earth; it performs essential roles in respiration, photosynthesis, and the decomposition of organic material. Phosphorus is primarily acquired by plants in the inorganic, ionic forms, which are found in soil solutions at concentrations of only a few parts per million. Plants use methods of diffusion and active transport to absorb phosphorus at the surface of their roots.
Phosphorus is abundant in soils; however, it is often unavailable to plants because it forms insoluble complexes with positively charged cations. This occurs when negatively charged phosphorus ions bind to positive cations in the soil (i.e. opposites attract). Enzymes such as acid phosphatases play a critical role in the acquisition and manipulation of phosphorus in plants. It has been found that when soils possess low levels of free phosphorus, plants are stimulated to produce acid phosphatase enzymes, which release inorganic phosphorus in the soil.
Plants need nutrients such as phosphorus to grow and proliferate; therefore, understanding how this species uses phosphorus could lead to conservation practices to limits this invasive species’ impact on the environment. A group of scientists wanted to investigate the relationship between plant enzyme activity and phosphorus levels in aquatic biomes. This investigation was targeted at studying the invasive Eurasian milfoil, Myriophyllum spicatum. In doing so, scientists believed that they could control the spread of the plant into neighboring waters if they were able to limit the nutrients in its environment. A study was performed in order to explore how phosphorus concentration in freshwater ecosystems affects phosphorus cycling and plant enzyme production. In order to determine if there was a relationship between the phosphatase activity and concentration of phosphorus in the sediment and water column of specific sites, researchers measured the respective phosphorus concentrations and enzyme activities.
In this study, three standing ponds were sampled at six different time periods in the same year from July to December. The phosphorus content of each sample was determined through an ascorbic acid assay. Sediment collections were divided into samples weighing one sixteenth of a gram using coning and quartering techniques. These samples underwent a persulfate digestion and were vacuum filtered to remove excess sediment. Last, the samples were diluted and analyzed for phosphorus content using the ascorbic acid procedure. The solutions’ ability to absorb specific wavelengths of light was measured using a spectrophotometer set at an absorbance of 880 nanometers. After the sediment phosphorus content of each site was determined, scientists decided to determine the concentration of phosphorus releasing enzymes through an alkaline phosphatase assay. One to two milliliters of collected sediment was centrifuged until the sediment formed a pellet. The scientists chemically induced and observed a reaction between the sediment enzymes and insoluble phosphorus compounds present in an artificial substrate. Enzymes speed up chemical reactions by binding to substrates and releasing their constituent parts: in this case phosphorus and an unknown cation. After this reaction was halted, the samples were centrifuged and their absorbance was measured with a spectrophotometer set at 420 nanometers. This identified the concentration of phosphatase enzymes present in each sample. Now, scientists were able to compare the correlation between phosphorus levels and plant enzymes in the soil.
An exponential regression analysis indicated that there was a significant relationship between phosphatase activity and sediment phosphorus concentration (see Figure 1). The trend in the exponential regression analysis showed evidence of an inducible expression between phosphorus substrate and phosphatase enzymes. In other words, phosphorus is often abundant in soils, but is unavailable due to its formation into insoluble complexes with aluminum and iron. As a result, acid phosphatase enzymes break down these insoluble complexes and release phosphorus for plant acquisition and usage; therefore, phosphorus rich environments should possess greater phosphatase activity.
This study supported the expectation that there would be a relationship between phosphatase activities and sediment phosphorus concentration (i.e. higher phosphorus concentrations increase yields of plants, while phosphorus limitation decreases the productivity of invasive species). The scientists hoped to use the findings in this study for the development of bioremediation techniques aimed at controlling invasive species through green management practices.
Figure 1 represents a correlation between phosphorus concentration and phosphatase activity in all the sites across all time periods.
The figure in the passage is best described as which of the following?
A decreasing/negative correlation between phosphatase concentration and enzyme activity
An increasing/positive correlation between phosphatase concentration and biomass of Myriophyllum spicatum
An increasing/positive correlation between phosphatase concentration and enzyme activity
A decreasing/negative correlation between phosphorus concentration and enzyme activity
An increasing/positive correlation between phosphorus concentration and enzyme activity
An increasing/positive correlation between phosphorus concentration and enzyme activity
"An increasing/positive correlation between phosphorus concentration and enzyme activity" is the choice that best describes the figure in the passage. The x-axis of the figure contains "sediment phosphorus concentration" while the y-axis contains the data associated with phosphatase activity. As the value of one increases, so does the value of the other. This scatter plot shows a strong positive correlation between the x and y variables: sediment phosphorus concentration and phosphatase activity, respectively.
Example Question #50 : New Sat
Network theorists attempt to illustrate the social situation of individuals through the observation of their relationships with other people. They note relationships that individuals have with one another and use statistical measures in order to visualize them. Network analysts describe the relationships between individuals and use this information in order to make inferences and conclusions pertaining to the group based upon its observed dynamics.
There has been debate over the importance of weak and strong ties in regard to an individual’s social situation. Network theorists have described a tie as a relationship between individuals that is characterized by four main components: time, emotional intensity, intimacy, and reciprocal services (i.e. “if you scratch my back, then I’ll scratch yours”). In network sociology, a weak tie is defined as local bridges between two disparate social groups. Some sociologists have argued that weak ties have a greater impact on an individual’s social capital because they are exposed to a group of individuals that are not part of their immediate social network. On the other hand, network theorists have argued that the importance of strong ties has been largely ignored. Sociologists have argued that these tight in-group relations between individuals of social groups are imperative for the transmission of information.
This theory was studied by observing employees in Silicon Valley that were attempting to unionize. Network theorists had individuals in the company write down two names: the name of the person they get advice from (i.e. a weak tie) and the person they consider as a friend (i.e. strong tie). The theorists attempted to understand the differences between whom individuals interact with at work and whom they choose to spend time with outside of the company’s walls. This distinction illustrates the difference between weak and strong ties—that is advice networks at work and friendship networks that extended beyond the physical space of the corporation. Using this information, the researchers were able to create network sociograms that depicted both the friendship and advisory networks of the company.
While sociologists were investigating this information, they were able to observe and apply their data to an attempt to unionize at the company. This group of employees’ attempt to unionize failed and the sociologists were able to use their network data to explain this phenomenon. They concluded that the unionization attempt failed because, while the individuals that were spearheading it were influential in the advice network, they lacked the strong ties in the friends network necessary to form the union. Specifically they did not have ties to influential members of the corporation (i.e. bosses and members of the board). Without the support of influential strong ties in their immediate social networks these individuals were unable to properly form a union. In other words, weak ties in the advisory network introduced them to individuals of power; however, their inability to form strong, friendship bonds with them detrimentally affected their attempts to form a union.
The passage and the figures are in agreement that strong ties have the ability to transmit information effectively within a social network such as a company. They also agree that these ties can aid in the development of friendship bonds with individuals of power.
The author would agree that an individual from which of the following regions would be most likely to assist a unionization attempt in the company depicted in the sociogram?
Region 3
Region 1
Cannot be determined
Region 2
Region 4
Region 2
The author would agree that a person in "region 2" would be most beneficial to a team attempting to institute a unionization attempt. This is because there is a single node in this region that has ties to the network of bosses. The author stated the following: "Without the support of influential strong ties in their immediate social networks these individuals were unable to properly form a union." As a result, the author is likely to agree that the individual in "region 2" with ties to the network of bosses would be the most beneficial to the unionization attempt. This individual would be influential because they could use their strong friend ties with these powerful members of the company to gain support for the unionization attempt. This is the only region that unites the bosses with any individual in the network that is outside this small group of five nodes.