How to find synthesis of data in earth and space sciences - ACT Science
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The significant increase in atmospheric carbon dioxide since pre-industrial levels can be seen in the world’s oceans which absorb the CO2 and in turn undergo changes in chemistry. The consequences of increased CO2 include acidification of seawater and a decrease in carbonate ion (CO32-) concentration.
Changes in seawater chemistry affect marine organisms. The early life stages of invertebrates, such as squid, may be particularly vulnerable to changes in carbon dioxide levels. Acting as both predator and prey, squid are a significant component of marine ecosystems. For example, fish and sea birds, such as tuna and albatross, are dependent on squid as a source of prey. Furthermore, the fishing industry is impacted by the health of squid populations. California fisheries produce the majority of market squid.
In order to determine how increased levels of carbon dioxide affect the development of squid, eggs were hatched in two different conditions: normal (380 µatm) and elevated (2100 µatm) levels of CO2. The time to hatch and the size of the larval mantle (the anatomical feature that includes the body wall and fins) were measured and recorded. Two trials were conducted for each carbon dioxide concentration.
The results of this experiment show that ________.
The significant increase in atmospheric carbon dioxide since pre-industrial levels can be seen in the world’s oceans which absorb the CO2 and in turn undergo changes in chemistry. The consequences of increased CO2 include acidification of seawater and a decrease in carbonate ion (CO32-) concentration.
Changes in seawater chemistry affect marine organisms. The early life stages of invertebrates, such as squid, may be particularly vulnerable to changes in carbon dioxide levels. Acting as both predator and prey, squid are a significant component of marine ecosystems. For example, fish and sea birds, such as tuna and albatross, are dependent on squid as a source of prey. Furthermore, the fishing industry is impacted by the health of squid populations. California fisheries produce the majority of market squid.
In order to determine how increased levels of carbon dioxide affect the development of squid, eggs were hatched in two different conditions: normal (380 µatm) and elevated (2100 µatm) levels of CO2. The time to hatch and the size of the larval mantle (the anatomical feature that includes the body wall and fins) were measured and recorded. Two trials were conducted for each carbon dioxide concentration.
The results of this experiment show that ________.
The only correct correlation given is that increased carbon dioxide levels reduce the size of the squid. Data for tuna size is not given. As for correlation with pH, lower pH levels correspond to increased hatching time of squid and a decrease in the size of squid.
The only correct correlation given is that increased carbon dioxide levels reduce the size of the squid. Data for tuna size is not given. As for correlation with pH, lower pH levels correspond to increased hatching time of squid and a decrease in the size of squid.
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Since the early 1900s, there has been a steady increase in the earth’s atmospheric temperature, resulting in a phenomenon called “Global Warming.” While the steady temperature change has been well documented, the cause of global warming remains controversial.
Scientist 1
Scientist 1 believes that “external forcings” are the cause of increased temperature over the past century. “External forcings” can direct the change in temperature over thousands of years. One example of an external force is variation in the earth’s orbit around the sun. The earth orbital cycle lasts 26,000 years and causes general trends in warming and cooling.
Scientist 2
Scientist 2 believes that global warming is a man-made phenomenon due to an increase in greenhouse gases such as carbon dioxide or methane. Greenhouse gases have a natural warming effect, however, an increase in the amount of atmospheric greenhouse gases many enhance that effect. Since 1750, the concentration of carbon dioxide has increased 36 percent while the amount of atmospheric methane has increased 148 percent.
What data supports Scientist 2's theory?
Since the early 1900s, there has been a steady increase in the earth’s atmospheric temperature, resulting in a phenomenon called “Global Warming.” While the steady temperature change has been well documented, the cause of global warming remains controversial.
Scientist 1
Scientist 1 believes that “external forcings” are the cause of increased temperature over the past century. “External forcings” can direct the change in temperature over thousands of years. One example of an external force is variation in the earth’s orbit around the sun. The earth orbital cycle lasts 26,000 years and causes general trends in warming and cooling.
Scientist 2
Scientist 2 believes that global warming is a man-made phenomenon due to an increase in greenhouse gases such as carbon dioxide or methane. Greenhouse gases have a natural warming effect, however, an increase in the amount of atmospheric greenhouse gases many enhance that effect. Since 1750, the concentration of carbon dioxide has increased 36 percent while the amount of atmospheric methane has increased 148 percent.
What data supports Scientist 2's theory?
Because increased temperature is attributed to an increase in greenhouse gases, a graph depicting a postive correlation between the two is suggestive of a relationship between increased production of greenhouse gases and global warming.
Because increased temperature is attributed to an increase in greenhouse gases, a graph depicting a postive correlation between the two is suggestive of a relationship between increased production of greenhouse gases and global warming.
Compare your answer with the correct one above
Since the early 1900s, there has been a steady increase in the earth’s atmospheric temperature, resulting in a phenomenon called “Global Warming.” While the steady temperature change has been well documented, the cause of global warming remains controversial.
Scientist 1
Scientist 1 believes that “external forcings” are the cause of increased temperature over the past century. “External forcings” can direct the change in temperature over thousands of years. One example of an external force is variation in the earth’s orbit around the sun. The earth orbital cycle lasts 26,000 years and causes general trends in warming and cooling.
Scientist 2
Scientist 2 believes that global warming is a man-made phenomenon due to an increase in greenhouse gases such as carbon dioxide or methane. Greenhouse gases have a natural warming effect, however, an increase in the amount of atmospheric greenhouse gases many enhance that effect. Since 1750, the concentration of carbon dioxide has increased 36 percent while the amount of atmospheric methane has increased 148 percent.
What is a potential cause for an increase in greenhouse gases since 1750?
Since the early 1900s, there has been a steady increase in the earth’s atmospheric temperature, resulting in a phenomenon called “Global Warming.” While the steady temperature change has been well documented, the cause of global warming remains controversial.
Scientist 1
Scientist 1 believes that “external forcings” are the cause of increased temperature over the past century. “External forcings” can direct the change in temperature over thousands of years. One example of an external force is variation in the earth’s orbit around the sun. The earth orbital cycle lasts 26,000 years and causes general trends in warming and cooling.
Scientist 2
Scientist 2 believes that global warming is a man-made phenomenon due to an increase in greenhouse gases such as carbon dioxide or methane. Greenhouse gases have a natural warming effect, however, an increase in the amount of atmospheric greenhouse gases many enhance that effect. Since 1750, the concentration of carbon dioxide has increased 36 percent while the amount of atmospheric methane has increased 148 percent.
What is a potential cause for an increase in greenhouse gases since 1750?
During the early 1900s, the Industrial Revolution resulted in burning coal for energy, which caused an increase in production of greenhouse gases. Additionally, the increase in population has caused rapid deforestation, reducing the number of plants and trees that consume carbon dioxide. To date, there is no strong link between depletion of the ozone layer and climate change.
During the early 1900s, the Industrial Revolution resulted in burning coal for energy, which caused an increase in production of greenhouse gases. Additionally, the increase in population has caused rapid deforestation, reducing the number of plants and trees that consume carbon dioxide. To date, there is no strong link between depletion of the ozone layer and climate change.
Compare your answer with the correct one above
Since the early 1900s, there has been a steady increase in the earth’s atmospheric temperature, resulting in a phenomenon called “Global Warming.” While the steady temperature change has been well documented, the cause of global warming remains controversial.
Scientist 1
Scientist 1 believes that “external forcings” are the cause of increased temperature over the past century. “External forcings” can direct the change in temperature over thousands of years. One example of an external force is variation in the earth’s orbit around the sun. The earth orbital cycle lasts 26,000 years and causes general trends in warming and cooling.
Scientist 2
Scientist 2 believes that global warming is a man-made phenomenon due to an increase in greenhouse gases such as carbon dioxide or methane. Greenhouse gases have a natural warming effect, however, an increase in the amount of atmospheric greenhouse gases many enhance that effect. Since 1750, the concentration of carbon dioxide has increased 36 percent while the amount of atmospheric methane has increased 148 percent.
In the year 2438 another ice age occurs, supporting which scientists' theory?
Since the early 1900s, there has been a steady increase in the earth’s atmospheric temperature, resulting in a phenomenon called “Global Warming.” While the steady temperature change has been well documented, the cause of global warming remains controversial.
Scientist 1
Scientist 1 believes that “external forcings” are the cause of increased temperature over the past century. “External forcings” can direct the change in temperature over thousands of years. One example of an external force is variation in the earth’s orbit around the sun. The earth orbital cycle lasts 26,000 years and causes general trends in warming and cooling.
Scientist 2
Scientist 2 believes that global warming is a man-made phenomenon due to an increase in greenhouse gases such as carbon dioxide or methane. Greenhouse gases have a natural warming effect, however, an increase in the amount of atmospheric greenhouse gases many enhance that effect. Since 1750, the concentration of carbon dioxide has increased 36 percent while the amount of atmospheric methane has increased 148 percent.
In the year 2438 another ice age occurs, supporting which scientists' theory?
Scientist 1 believes that global warming is a result of cyclical changes in the earth's orbit; therefore, periods of global warming should be followed by periods of global cooling, which can result in another ice age. On the other hand, Scientist 2 believes that as the world's population continues to grow, global warming will also continue. Because there was no data presented to suggest an abrupt change in population growth, scientist 2's theory is incorrect.
Scientist 1 believes that global warming is a result of cyclical changes in the earth's orbit; therefore, periods of global warming should be followed by periods of global cooling, which can result in another ice age. On the other hand, Scientist 2 believes that as the world's population continues to grow, global warming will also continue. Because there was no data presented to suggest an abrupt change in population growth, scientist 2's theory is incorrect.
Compare your answer with the correct one above
Since the early 1900s, there has been a steady increase in the earth’s atmospheric temperature, resulting in a phenomenon called “Global Warming.” While the steady temperature change has been well documented, the cause of global warming remains controversial.
Scientist 1
Scientist 1 believes that “external forcings” are the cause of increased temperature over the past century. “External forcings” can direct the change in temperature over thousands of years. One example of an external force is variation in the earth’s orbit around the sun. The earth orbital cycle lasts 26,000 years and causes general trends in warming and cooling.
Scientist 2
Scientist 2 believes that global warming is a man-made phenomenon due to an increase in greenhouse gases such as carbon dioxide or methane. Greenhouse gases have a natural warming effect, however, an increase in the amount of atmospheric greenhouse gases many enhance that effect. Since 1750, the concentration of carbon dioxide has increased 36 percent while the amount of atmospheric methane has increased 148 percent.
In the year 2150, the United Nations institutes a global limit on the production of greenhouse gases. The average atmospheric temperature continues to increase, although the rate of increase is less than it was before 2150. Does this invalidate the theory proposed by Scientist 2? Why or why not?
Since the early 1900s, there has been a steady increase in the earth’s atmospheric temperature, resulting in a phenomenon called “Global Warming.” While the steady temperature change has been well documented, the cause of global warming remains controversial.
Scientist 1
Scientist 1 believes that “external forcings” are the cause of increased temperature over the past century. “External forcings” can direct the change in temperature over thousands of years. One example of an external force is variation in the earth’s orbit around the sun. The earth orbital cycle lasts 26,000 years and causes general trends in warming and cooling.
Scientist 2
Scientist 2 believes that global warming is a man-made phenomenon due to an increase in greenhouse gases such as carbon dioxide or methane. Greenhouse gases have a natural warming effect, however, an increase in the amount of atmospheric greenhouse gases many enhance that effect. Since 1750, the concentration of carbon dioxide has increased 36 percent while the amount of atmospheric methane has increased 148 percent.
In the year 2150, the United Nations institutes a global limit on the production of greenhouse gases. The average atmospheric temperature continues to increase, although the rate of increase is less than it was before 2150. Does this invalidate the theory proposed by Scientist 2? Why or why not?
Because there is a modest change in temperature and increased greenhouse gas concentrations can not be ruled out (through mechanisms such as deforestation), we can not conclude that Scientist 2's theory was correct.
Because there is a modest change in temperature and increased greenhouse gas concentrations can not be ruled out (through mechanisms such as deforestation), we can not conclude that Scientist 2's theory was correct.
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Global warming is defined as the slow increase in the temperature of the earth’s atmosphere and is caused by pollutants and carbon dioxide (CO2). While the gradual increase in temperature cannot be refuted, scientists argue over the cause.
Scientist 1:
Global warming is caused by increases in atmospheric CO2, which is directly created by humans and their consumption of fossil fuels. The natural CO2 released from carbon sinks has a different isotopic ratio from the CO2 released from fossil fuels. Current measurements of the radioactive isotopes of CO2 show that it is from human activity, not from nature. The Earth’s carbon sinks cannot absorb these large amounts of unnatural CO2 emissions. About fifty percent of the CO2 produced by mankind remains in the atmosphere, unable to be absorbed.
Scientist 2:
The rise in atmospheric CO2 levels are a result of global warming, not the cause of it. When the temperature increases, the CO2 in carbon sinks is released. While humans do cause release of CO2, the carbon sinks absorb it. The activity of the carbon sinks increases to allow for higher levels of CO2 absorption. Proponents for human causation of global warming point to the warming and cooling of the stratosphere, however, these temperature fluctuations are caused by changes in the sun’s heat. These proponents also look at the acidity of the ocean as evidence of human causation, however, the rise in ocean acidity is within the normal range of fluctuations over the past ten thousand years.
Which of the following best outlines the evidence provided by Scientist 2 to make his argument?
Global warming is defined as the slow increase in the temperature of the earth’s atmosphere and is caused by pollutants and carbon dioxide (CO2). While the gradual increase in temperature cannot be refuted, scientists argue over the cause.
Scientist 1:
Global warming is caused by increases in atmospheric CO2, which is directly created by humans and their consumption of fossil fuels. The natural CO2 released from carbon sinks has a different isotopic ratio from the CO2 released from fossil fuels. Current measurements of the radioactive isotopes of CO2 show that it is from human activity, not from nature. The Earth’s carbon sinks cannot absorb these large amounts of unnatural CO2 emissions. About fifty percent of the CO2 produced by mankind remains in the atmosphere, unable to be absorbed.
Scientist 2:
The rise in atmospheric CO2 levels are a result of global warming, not the cause of it. When the temperature increases, the CO2 in carbon sinks is released. While humans do cause release of CO2, the carbon sinks absorb it. The activity of the carbon sinks increases to allow for higher levels of CO2 absorption. Proponents for human causation of global warming point to the warming and cooling of the stratosphere, however, these temperature fluctuations are caused by changes in the sun’s heat. These proponents also look at the acidity of the ocean as evidence of human causation, however, the rise in ocean acidity is within the normal range of fluctuations over the past ten thousand years.
Which of the following best outlines the evidence provided by Scientist 2 to make his argument?
The only answer choice containing three topics that Scientist 2 specifically discusses is "carbon sink activity, ocean acidity, and temperature changes." Scientist 2 does not directly discuss isotope ratios, so any answer containing this option is incorrect.
The only answer choice containing three topics that Scientist 2 specifically discusses is "carbon sink activity, ocean acidity, and temperature changes." Scientist 2 does not directly discuss isotope ratios, so any answer containing this option is incorrect.
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A scientist observes the motion of stars, planets, and other objects in deep space through a high-powered telescope. She observes that these objects all appear to be moving away from the Earth and graphs her results comparing their velocities, in kilometers per second, and their proper distance, in megaparsecs.
A new planet is discovered 11 megaparsecs (MPSC) away from the Earth. Which of the following is its likely velocity?
A scientist observes the motion of stars, planets, and other objects in deep space through a high-powered telescope. She observes that these objects all appear to be moving away from the Earth and graphs her results comparing their velocities, in kilometers per second, and their proper distance, in megaparsecs.
A new planet is discovered 11 megaparsecs (MPSC) away from the Earth. Which of the following is its likely velocity?
Based upon the graph, an object at 11 megaparsecs should have a speed of
Based upon the graph, an object at 11 megaparsecs should have a speed of
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A scientist observes the motion of stars, planets, and other objects in deep space through a high-powered telescope. She observes that these objects all appear to be moving away from the Earth and graphs her results comparing their velocities, in kilometers per second, and their proper distance, in megaparsecs.
Two planets, one with mass 
, the other with mass 
, are the same distance away from Earth. What will their relationship be in terms of their velocity, 
?
A scientist observes the motion of stars, planets, and other objects in deep space through a high-powered telescope. She observes that these objects all appear to be moving away from the Earth and graphs her results comparing their velocities, in kilometers per second, and their proper distance, in megaparsecs.
Two planets, one with mass
The graph gives absolutely no mention of mass. Because of that, the mass is irrelevant. The only things that the graph charts are distance away from Earth and velocity away from Earth. If they have the same distance, they will have the same velocity.
The graph gives absolutely no mention of mass. Because of that, the mass is irrelevant. The only things that the graph charts are distance away from Earth and velocity away from Earth. If they have the same distance, they will have the same velocity.
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A scientist observes the motion of stars, planets, and other objects in deep space through a high-powered telescope. She observes that these objects all appear to be moving away from the Earth and graphs her results comparing their velocities, in kilometers per second, and their proper distance, in megaparsecs.
What is the acceleration on these bodies?
A scientist observes the motion of stars, planets, and other objects in deep space through a high-powered telescope. She observes that these objects all appear to be moving away from the Earth and graphs her results comparing their velocities, in kilometers per second, and their proper distance, in megaparsecs.
What is the acceleration on these bodies?
Based upon the graph, the velocity increases the farther away an objects gets.
Imagine a car that drives down a highway. It starts at 10 mph, then after a mile, it increases to 20mph, then after a mile it increases to 40mph. Even though we don't know the time interval, we can assume that the vehicle is accelerating as it is moving in a roughly linear fashion.
Based upon the graph, the velocity increases the farther away an objects gets.
Imagine a car that drives down a highway. It starts at 10 mph, then after a mile, it increases to 20mph, then after a mile it increases to 40mph. Even though we don't know the time interval, we can assume that the vehicle is accelerating as it is moving in a roughly linear fashion.
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A scientist observes the motion of stars, planets, and other objects in deep space through a high-powered telescope. She observes that these objects all appear to be moving away from the Earth and graphs her results comparing their velocities, in kilometers per second, and their proper distance, in megaparsecs.
Which of the following, if true, would contradict the findings of this experiment?
A scientist observes the motion of stars, planets, and other objects in deep space through a high-powered telescope. She observes that these objects all appear to be moving away from the Earth and graphs her results comparing their velocities, in kilometers per second, and their proper distance, in megaparsecs.
Which of the following, if true, would contradict the findings of this experiment?
While the Earth may not "appear" to move, that's due to our relative location to it. This is much like how if you're sitting in a car driving at 60 mph, you feel like you're not moving even though your car (and you inside it) are travelling at 60 mph if observed by anyone outside of the car.
The only one of these that would directly contradict the findings would be for something to be moving towards the center of the universe as the findings point towards everything moving away.
While the Earth may not "appear" to move, that's due to our relative location to it. This is much like how if you're sitting in a car driving at 60 mph, you feel like you're not moving even though your car (and you inside it) are travelling at 60 mph if observed by anyone outside of the car.
The only one of these that would directly contradict the findings would be for something to be moving towards the center of the universe as the findings point towards everything moving away.
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A scientist observes the motion of stars, planets, and other objects in deep space through a high-powered telescope. She observes that these objects all appear to be moving away from the Earth and graphs her results comparing their velocities, in kilometers per second, and their proper distance, in megaparsecs.
A second scientist observes the results of this experiment and argues we can use the results to determine the age of the universe. Is he correct?
A scientist observes the motion of stars, planets, and other objects in deep space through a high-powered telescope. She observes that these objects all appear to be moving away from the Earth and graphs her results comparing their velocities, in kilometers per second, and their proper distance, in megaparsecs.
A second scientist observes the results of this experiment and argues we can use the results to determine the age of the universe. Is he correct?
This graph is enough information for us to be able to solve. If you follow the units, we have a distance divided by time and then another distance unit. We can use the graph to work backwards to find the time between the beginning of the universe, when time is zero, and the current point -- approximately 14 billion years!
This graph is enough information for us to be able to solve. If you follow the units, we have a distance divided by time and then another distance unit. We can use the graph to work backwards to find the time between the beginning of the universe, when time is zero, and the current point -- approximately 14 billion years!
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Scientists have long debated the origin of organic molecules on Earth. Organic molecules are those based on the atom carbon, which can form four distinct bonds in contrast to the fewer number allowed in most other non-metals. As a result of this property, carbon can give rise to the enormously complex molecular shapes necessary for life to arise.
Some scientists argue that organic matter was dissolved in water ice on comets, and brought to Earth early in its history. These comets crashed into the early Earth, and deposited carbon-based molecules in copious quantities to the Earth’s surface as their water melted.
In 2014, the first space probe landed on the comet 67P/Churyumov-Gerasimenko. Suppose that scientists find the following information from 5 distinct samples after landing on the comet. Each sample was taken at a single geographical location, but 5 meters deeper than the last. Sample 1 was taken at a depth of 1 meter below the surface.
Sample # Water Ice? Concentration of Organics 1 No N/A 2 Yes 1 mg/L 3 No N/A 4 Yes 4 mg/L 5 Yes 10 mg/L
These samples were compared to 5 similar samples from the surface of Mars. Scientists posited that this comparison would be meaningful because we know that life does not exist on Mars the same way that it does on Earth. Thus, they are comparing a known non-biological celestial body, Mars, with another celestial body, the comet, which may be seeding life on suitable plants.
Sample # Water Ice? Concentration of Organics 1 No N/A 2 No N/A 3 No N/A 4 No N/A 5 Yes 1 mg/L
The purpose of the sample from Mars as described in the passage is most likely to act as:
Scientists have long debated the origin of organic molecules on Earth. Organic molecules are those based on the atom carbon, which can form four distinct bonds in contrast to the fewer number allowed in most other non-metals. As a result of this property, carbon can give rise to the enormously complex molecular shapes necessary for life to arise.
Some scientists argue that organic matter was dissolved in water ice on comets, and brought to Earth early in its history. These comets crashed into the early Earth, and deposited carbon-based molecules in copious quantities to the Earth’s surface as their water melted.
In 2014, the first space probe landed on the comet 67P/Churyumov-Gerasimenko. Suppose that scientists find the following information from 5 distinct samples after landing on the comet. Each sample was taken at a single geographical location, but 5 meters deeper than the last. Sample 1 was taken at a depth of 1 meter below the surface.
| Sample # | Water Ice? | Concentration of Organics |
|---|---|---|
| 1 | No | N/A |
| 2 | Yes | 1 mg/L |
| 3 | No | N/A |
| 4 | Yes | 4 mg/L |
| 5 | Yes | 10 mg/L |
These samples were compared to 5 similar samples from the surface of Mars. Scientists posited that this comparison would be meaningful because we know that life does not exist on Mars the same way that it does on Earth. Thus, they are comparing a known non-biological celestial body, Mars, with another celestial body, the comet, which may be seeding life on suitable plants.
| Sample # | Water Ice? | Concentration of Organics |
|---|---|---|
| 1 | No | N/A |
| 2 | No | N/A |
| 3 | No | N/A |
| 4 | No | N/A |
| 5 | Yes | 1 mg/L |
The purpose of the sample from Mars as described in the passage is most likely to act as:
The passage indicates that Martian soil was chosen as it is known to be non-biological. As a result, it is being used as a negative control to compare the concentration of organic molecules on comets to known non-biological samples from another celestial body.
The passage indicates that Martian soil was chosen as it is known to be non-biological. As a result, it is being used as a negative control to compare the concentration of organic molecules on comets to known non-biological samples from another celestial body.
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Scientists have long debated the origin of organic molecules on Earth. Organic molecules are those based on the atom carbon, which can form four distinct bonds in contrast to the fewer number allowed in most other non-metals. As a result of this property, carbon can give rise to the enormously complex molecular shapes necessary for life to arise.
Some scientists argue that organic matter was dissolved in water ice on comets, and brought to Earth early in its history. These comets crashed into the early Earth, and deposited carbon-based molecules in copious quantities to the Earth’s surface as their water melted.
In 2014, the first space probe landed on the comet 67P/Churyumov-Gerasimenko. Suppose that scientists find the following information from 5 distinct samples after landing on the comet. Each sample was taken at a single geographical location, but 5 meters deeper than the last. Sample 1 was taken at a depth of 1 meter below the surface.
Sample # Water Ice? Concentration of Organics 1 No N/A 2 Yes 1 mg/L 3 No N/A 4 Yes 4 mg/L 5 Yes 10 mg/L
These samples were compared to 5 similar samples from the surface of Mars. Scientists posited that this comparison would be meaningful because we know that life does not exist on Mars the same way that it does on Earth. Thus, they are comparing a known non-biological celestial body, Mars, with another celestial body, the comet, which may be seeding life on suitable plants.
Sample # Water Ice? Concentration of Organics 1 No N/A 2 No N/A 3 No N/A 4 No N/A 5 Yes 1 mg/L
How far below the surface of the comet was the third sample measured?
Scientists have long debated the origin of organic molecules on Earth. Organic molecules are those based on the atom carbon, which can form four distinct bonds in contrast to the fewer number allowed in most other non-metals. As a result of this property, carbon can give rise to the enormously complex molecular shapes necessary for life to arise.
Some scientists argue that organic matter was dissolved in water ice on comets, and brought to Earth early in its history. These comets crashed into the early Earth, and deposited carbon-based molecules in copious quantities to the Earth’s surface as their water melted.
In 2014, the first space probe landed on the comet 67P/Churyumov-Gerasimenko. Suppose that scientists find the following information from 5 distinct samples after landing on the comet. Each sample was taken at a single geographical location, but 5 meters deeper than the last. Sample 1 was taken at a depth of 1 meter below the surface.
| Sample # | Water Ice? | Concentration of Organics |
|---|---|---|
| 1 | No | N/A |
| 2 | Yes | 1 mg/L |
| 3 | No | N/A |
| 4 | Yes | 4 mg/L |
| 5 | Yes | 10 mg/L |
These samples were compared to 5 similar samples from the surface of Mars. Scientists posited that this comparison would be meaningful because we know that life does not exist on Mars the same way that it does on Earth. Thus, they are comparing a known non-biological celestial body, Mars, with another celestial body, the comet, which may be seeding life on suitable plants.
| Sample # | Water Ice? | Concentration of Organics |
|---|---|---|
| 1 | No | N/A |
| 2 | No | N/A |
| 3 | No | N/A |
| 4 | No | N/A |
| 5 | Yes | 1 mg/L |
How far below the surface of the comet was the third sample measured?
The passage indicates that the samples are taken 5 meters below the sample above them. The first sample was taken at 1 meter below the surface, the second was taken at 6 meters below the surface, and the third was taken at 11 meters below the surface.
The passage indicates that the samples are taken 5 meters below the sample above them. The first sample was taken at 1 meter below the surface, the second was taken at 6 meters below the surface, and the third was taken at 11 meters below the surface.
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Scientists studying historical trends in climate change have a number of tools at their disposal. One method of analyzing paleoclimate data involves the use of fossilized pollen spores embedded in sediment. Pollen spores are specific to the plant that produced them. Because the spores are resilient and are widely-distributed by wind, they provide a snapshot of the vegetation that was widespread at a particular point in time. By identifying the age of a sample and the composition of the various spores, scientists can identify the prominent vegetation and use this information to gain insight into the climate at the time the spores were deposited.
Scientists took sediment samples from various depths of a lakebed. They found that five types of pollen spores make up the majority of spore deposits in each sample. In Table 1, plants are listed along with the respective temperature ranges and levels of precipitation for the areas in which they are commonly found. Table 2 shows the composition of the assortment of spores in each of the four samples taken by the scientists.
A spore for a new type of plant, Plant X, is found in high concentrations in Sample 3. What is the plant's likely preferred temperature and rate of precipitation?
Scientists studying historical trends in climate change have a number of tools at their disposal. One method of analyzing paleoclimate data involves the use of fossilized pollen spores embedded in sediment. Pollen spores are specific to the plant that produced them. Because the spores are resilient and are widely-distributed by wind, they provide a snapshot of the vegetation that was widespread at a particular point in time. By identifying the age of a sample and the composition of the various spores, scientists can identify the prominent vegetation and use this information to gain insight into the climate at the time the spores were deposited.
Scientists took sediment samples from various depths of a lakebed. They found that five types of pollen spores make up the majority of spore deposits in each sample. In Table 1, plants are listed along with the respective temperature ranges and levels of precipitation for the areas in which they are commonly found. Table 2 shows the composition of the assortment of spores in each of the four samples taken by the scientists.
A spore for a new type of plant, Plant X, is found in high concentrations in Sample 3. What is the plant's likely preferred temperature and rate of precipitation?
Sample 3 has only one type of plant spore in high concentrations: Plant E. Plant X most likely has climate preferences similar to Plant E's. Both temperature and precipitation for Plant X should resemble Plant E's: 8 - 15 
for temperature and 45 - 80 cm. per year for precipitation.
Sample 3 has only one type of plant spore in high concentrations: Plant E. Plant X most likely has climate preferences similar to Plant E's. Both temperature and precipitation for Plant X should resemble Plant E's: 8 - 15
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Scientists studying historical trends in climate change have a number of tools at their disposal. One method of analyzing paleoclimate data involves the use of fossilized pollen spores embedded in sediment. Pollen spores are specific to the plant that produced them. Because the spores are resilient and are widely-distributed by wind, they provide a snapshot of the vegetation that was widespread at a particular point in time. By identifying the age of a sample and the composition of the various spores, scientists can identify the prominent vegetation and use this information to gain insight into the climate at the time the spores were deposited.
Scientists took sediment samples from various depths of a lakebed. They found that five types of pollen spores make up the majority of spore deposits in each sample. In Table 1, plants are listed along with the respective temperature ranges and levels of precipitation for the areas in which they are commonly found. Table 2 shows the composition of the assortment of spores in each of the four samples taken by the scientists.
Scientists take a sample of airborne spores at the time of their collection. Assuming all five plant types are still present in the region, which would be most prevalent in the current cool, arid climate?
Scientists studying historical trends in climate change have a number of tools at their disposal. One method of analyzing paleoclimate data involves the use of fossilized pollen spores embedded in sediment. Pollen spores are specific to the plant that produced them. Because the spores are resilient and are widely-distributed by wind, they provide a snapshot of the vegetation that was widespread at a particular point in time. By identifying the age of a sample and the composition of the various spores, scientists can identify the prominent vegetation and use this information to gain insight into the climate at the time the spores were deposited.
Scientists took sediment samples from various depths of a lakebed. They found that five types of pollen spores make up the majority of spore deposits in each sample. In Table 1, plants are listed along with the respective temperature ranges and levels of precipitation for the areas in which they are commonly found. Table 2 shows the composition of the assortment of spores in each of the four samples taken by the scientists.
Scientists take a sample of airborne spores at the time of their collection. Assuming all five plant types are still present in the region, which would be most prevalent in the current cool, arid climate?
According to Table 1, the plant most tolerant of low temperatures and low precipitation is Plant E. This is most likely the most prevalent plant.
According to Table 1, the plant most tolerant of low temperatures and low precipitation is Plant E. This is most likely the most prevalent plant.
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Scientists studying historical trends in climate change have a number of tools at their disposal. One method of analyzing paleoclimate data involves the use of fossilized pollen spores embedded in sediment. Pollen spores are specific to the plant that produced them. Because the spores are resilient and are widely-distributed by wind, they provide a snapshot of the vegetation that was widespread at a particular point in time. By identifying the age of a sample and the composition of the various spores, scientists can identify the prominent vegetation and use this information to gain insight into the climate at the time the spores were deposited.
Scientists took sediment samples from various depths of a lakebed. They found that five types of pollen spores make up the majority of spore deposits in each sample. In Table 1, plants are listed along with the respective temperature ranges and levels of precipitation for the areas in which they are commonly found. Table 2 shows the composition of the assortment of spores in each of the four samples taken by the scientists.
A fifth sample is taken at a different depth. If it contains few spores from any of the 5 plants, which is the most likely explanation for their absence?
Scientists studying historical trends in climate change have a number of tools at their disposal. One method of analyzing paleoclimate data involves the use of fossilized pollen spores embedded in sediment. Pollen spores are specific to the plant that produced them. Because the spores are resilient and are widely-distributed by wind, they provide a snapshot of the vegetation that was widespread at a particular point in time. By identifying the age of a sample and the composition of the various spores, scientists can identify the prominent vegetation and use this information to gain insight into the climate at the time the spores were deposited.
Scientists took sediment samples from various depths of a lakebed. They found that five types of pollen spores make up the majority of spore deposits in each sample. In Table 1, plants are listed along with the respective temperature ranges and levels of precipitation for the areas in which they are commonly found. Table 2 shows the composition of the assortment of spores in each of the four samples taken by the scientists.
A fifth sample is taken at a different depth. If it contains few spores from any of the 5 plants, which is the most likely explanation for their absence?
According to the passage, plant populations and the concentrations of deposited spores are largely dictated by climate conditions. Therefore it is most likely that the _absence_of spores is also attributable to climate conditions.
The passage also states that pollen spores are resilient and widely-distributed. This makes it unlikely that they did not survive or were poorly distributed. Lastly, no changes in sampling procedures were listed besides the change in depth. Because the scientists did not find similarly low numbers in Samples 1-4, it is unlikely that their sampling procedures were the cause of the absence of spores in Sample 5.
According to the passage, plant populations and the concentrations of deposited spores are largely dictated by climate conditions. Therefore it is most likely that the _absence_of spores is also attributable to climate conditions.
The passage also states that pollen spores are resilient and widely-distributed. This makes it unlikely that they did not survive or were poorly distributed. Lastly, no changes in sampling procedures were listed besides the change in depth. Because the scientists did not find similarly low numbers in Samples 1-4, it is unlikely that their sampling procedures were the cause of the absence of spores in Sample 5.
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Above is the deer population of Routt County National Forest between 1905 and 2005. The First White-tail deer were introduced to the forest for hunting in 1905. They are not native to the area, though they thrived in the environment.
White tailed deer eat the seeds of coniferous trees, berries, and an assortment of other plants. They tend to roam in small family herds and stick to areas where water is abundant and is unlikely to freeze completely in the winter.
In 1995, an environmental scientist watched a small herd of deer for ten days, recording their movements and taking note of herd size and stopping place. Below is a chart of his results.
Day Travel distance (mi) Herd size Stopping place 1 21 13 Bear Creek 2 15 13 Yampa Valley 5 19 13 Bear Creek 8 11 10 Gilpin Lake 10 22 10 Yampa Valley
Which of the following most likely influences where the deer herd stops when it is traveling?
Above is the deer population of Routt County National Forest between 1905 and 2005. The First White-tail deer were introduced to the forest for hunting in 1905. They are not native to the area, though they thrived in the environment.
White tailed deer eat the seeds of coniferous trees, berries, and an assortment of other plants. They tend to roam in small family herds and stick to areas where water is abundant and is unlikely to freeze completely in the winter.
In 1995, an environmental scientist watched a small herd of deer for ten days, recording their movements and taking note of herd size and stopping place. Below is a chart of his results.
| Day | Travel distance (mi) | Herd size | Stopping place |
|---|---|---|---|
| 1 | 21 | 13 | Bear Creek |
| 2 | 15 | 13 | Yampa Valley |
| 5 | 19 | 13 | Bear Creek |
| 8 | 11 | 10 | Gilpin Lake |
| 10 | 22 | 10 | Yampa Valley |
Which of the following most likely influences where the deer herd stops when it is traveling?
The herd stops at creeks, lakes, and in the valley.These things all share commonalities which are, in this case, a source of water and of low ground, probably as a protection from the elements (creeks and lakes lie and the lowest points in the mountains). It would stand to reason, then, that what they are searching for is both water access as well as low ground.
The herd stops at creeks, lakes, and in the valley.These things all share commonalities which are, in this case, a source of water and of low ground, probably as a protection from the elements (creeks and lakes lie and the lowest points in the mountains). It would stand to reason, then, that what they are searching for is both water access as well as low ground.
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Above is the deer population of Routt County National Forest between 1905 and 2005. The First White-tail deer were introduced to the forest for hunting in 1905. They are not native to the area, though they thrived in the environment.
White tailed deer eat the seeds of coniferous trees, berries, and an assortment of other plants. They tend to roam in small family herds and stick to areas where water is abundant and is unlikely to freeze completely in the winter.
In 1995, an environmental scientist watched a small herd of deer for ten days, recording their movements and taking note of herd size and stopping place. Below is a chart of his results.
Day Travel distance (mi) Herd size Stopping place 1 21 13 Bear Creek 2 15 13 Yampa Valley 5 19 13 Bear Creek 8 11 10 Gilpin Lake 10 22 10 Yampa Valley
What could have caused the herd size to decrease on day 8?
Above is the deer population of Routt County National Forest between 1905 and 2005. The First White-tail deer were introduced to the forest for hunting in 1905. They are not native to the area, though they thrived in the environment.
White tailed deer eat the seeds of coniferous trees, berries, and an assortment of other plants. They tend to roam in small family herds and stick to areas where water is abundant and is unlikely to freeze completely in the winter.
In 1995, an environmental scientist watched a small herd of deer for ten days, recording their movements and taking note of herd size and stopping place. Below is a chart of his results.
| Day | Travel distance (mi) | Herd size | Stopping place |
|---|---|---|---|
| 1 | 21 | 13 | Bear Creek |
| 2 | 15 | 13 | Yampa Valley |
| 5 | 19 | 13 | Bear Creek |
| 8 | 11 | 10 | Gilpin Lake |
| 10 | 22 | 10 | Yampa Valley |
What could have caused the herd size to decrease on day 8?
The most correct answers are those that involve Gilpin Lake, as that was where the herd was when three deer were lost. All the other incidents at their other places of travel wouldn't affect them as much as they weren't there. The best answer, though, is that wolves are the cause, for wolves would hunt and kill as many as they could eat and would therefore cause much more damage than snow, something the deer are both used to as well as acclimated to.
The most correct answers are those that involve Gilpin Lake, as that was where the herd was when three deer were lost. All the other incidents at their other places of travel wouldn't affect them as much as they weren't there. The best answer, though, is that wolves are the cause, for wolves would hunt and kill as many as they could eat and would therefore cause much more damage than snow, something the deer are both used to as well as acclimated to.
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Above is the deer population of Routt County National Forest between 1905 and 2005. The First White-tail deer were introduced to the forest for hunting in 1905. They are not native to the area, though they thrived in the environment.
White tailed deer eat the seeds of coniferous trees, berries, and an assortment of other plants. They tend to roam in small family herds and stick to areas where water is abundant and is unlikely to freeze completely in the winter.
In 1995, an environmental scientist watched a small herd of deer for ten days, recording their movements and taking note of herd size and stopping place. Below is a chart of his results.
Day Travel distance (mi) Herd size Stopping place 1 21 13 Bear Creek 2 15 13 Yampa Valley 5 19 13 Bear Creek 8 11 10 Gilpin Lake 10 22 10 Yampa Valley
If the scientist were to lose the herd of deer at Bear Creek, what would be his best course of action for finding them again?
Above is the deer population of Routt County National Forest between 1905 and 2005. The First White-tail deer were introduced to the forest for hunting in 1905. They are not native to the area, though they thrived in the environment.
White tailed deer eat the seeds of coniferous trees, berries, and an assortment of other plants. They tend to roam in small family herds and stick to areas where water is abundant and is unlikely to freeze completely in the winter.
In 1995, an environmental scientist watched a small herd of deer for ten days, recording their movements and taking note of herd size and stopping place. Below is a chart of his results.
| Day | Travel distance (mi) | Herd size | Stopping place |
|---|---|---|---|
| 1 | 21 | 13 | Bear Creek |
| 2 | 15 | 13 | Yampa Valley |
| 5 | 19 | 13 | Bear Creek |
| 8 | 11 | 10 | Gilpin Lake |
| 10 | 22 | 10 | Yampa Valley |
If the scientist were to lose the herd of deer at Bear Creek, what would be his best course of action for finding them again?
Notice the deer travel a large number of miles every day, most likely too far for a human on foot to keep up with. However, the deer return to the same places to rest and drink, and appear to do so in cycles that include all three places of rest regularly. It stands to reason, then, that if the scientist waits at whichever spot he lost them, he will see the herd again in a few days.
Notice the deer travel a large number of miles every day, most likely too far for a human on foot to keep up with. However, the deer return to the same places to rest and drink, and appear to do so in cycles that include all three places of rest regularly. It stands to reason, then, that if the scientist waits at whichever spot he lost them, he will see the herd again in a few days.
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A scientist has observed a new planet, Planet H. It was discovered that Planet H has water on its surface. As a result, it is being investigated to determine if it is possible for Planet H to sustain human life. Futhermore, observations revealed that Planet H has four moons: Moon J, Moon K, Moon L, and Moon M. Each moon's radius, distance to Planet H, and time to orbit Planet H have been recorded in the provided table.
Which moon has the largest mass?
A scientist has observed a new planet, Planet H. It was discovered that Planet H has water on its surface. As a result, it is being investigated to determine if it is possible for Planet H to sustain human life. Futhermore, observations revealed that Planet H has four moons: Moon J, Moon K, Moon L, and Moon M. Each moon's radius, distance to Planet H, and time to orbit Planet H have been recorded in the provided table.
Which moon has the largest mass?
Although Moon K has the largest radius, there is nothing stated about the composition of each of the moons. For example, Moon J has the smallest radius, but could be composed of a high mass material that would make its mass higher than the other moons.
Although Moon K has the largest radius, there is nothing stated about the composition of each of the moons. For example, Moon J has the smallest radius, but could be composed of a high mass material that would make its mass higher than the other moons.
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