A biologist wanted to do an experiment involving two species of large cat (species A and species B) around a potential new food source.

He isolated the populations of each cat in a location that closely approximated their natural environment, except this potential new food source was the only food source available to them. 

Experiment 1:

When species A was left alone with the new food source, their numbers decreased rapidly until none were left.

Experiment 2:

When species B was left alone with the new food source, their numbers increased and the species flourished.

Experiment 3:

When an equal number of species A and B were placed with the new food source, both species maintained relatively constant numbers.

The biologist wants to recreate this experiment, but with fish. Which of the following will he NOT need?

A biologist wanted to do an experiment involving two species of large cat (species A and species B) around a potential new food source.

He isolated the populations of each cat in a location that closely approximated their natural environment, except this potential new food source was the only food source available to them. 

Experiment 1:

When species A was left alone with the new food source, their numbers decreased rapidly until none were left.

Experiment 2:

When species B was left alone with the new food source, their numbers increased and the species flourished.

Experiment 3:

When an equal number of species A and B were placed with the new food source, both species maintained relatively constant numbers.

Why is it important that each species was in a location that closely approximated their natural environment?

There is a certain species of rabbit that is known to reproduce quickly. 250 of these rabbits were introduced into a new environment, and their population was measured in ten year intervals.

What assumption did the scientists make in this experiment?

There is a certain species of rabbit that is known to reproduce quickly. 250 of these rabbits were introduced into a new environment, and their population was measured in ten year intervals.

Which of the following statements, if true, might prevent the scientists from being able to generalize their findings to this species of rabbit as a whole?

A spectrophotometer measures specific light wavelengths emitted by a sample. The readings of the samples are compared to those on a standard curve of known values. The standard curve creates a line and the equation of this line can be used to extrapolate the concentration of a given substance in samples whose spectrophotometric measurements fall within range of the curve.

A scientist is using this method to measure the amount of phosphorus within sediment samples. The phosphorus turns blue when reacted with a certain reagent. The scientist produces a valid standard curve; however, all of the samples surpass the curve's highest known value. Can the scientist use these samples and what should be done to rectify the situation.

     Chemical reactions involve two main components, reactants and products. The reactants, often referred to as substrates, interact with each other and rearrange in order to be converted into products. The speeds of these reactions are often defined by substrate concentration and the presence of enzymes. Enzymes are referred to as catalysts. Peroxidase is traditionally derived from turnips; however, it is commonly found in many plant and animal cells. This enzyme helps plant cells by removing hydrogen peroxide from cells in the form of tetraguaiacol.

Study 1

     A scientist wants to observe the production of tetraguaiacol by observing a reaction between hydrogen peroxide and guaiacol. The product of this reaction is orange-brown in color. The scientist measures the intensity of color in each sample using a spectrophotometer. In the control experiment, the scientist mixed the substrates together and measured the reaction rate. In the test experiment, a peroxidase enzyme was added to a new set of substrates and rate of reaction was measured. The results of these reactions are plotted in Figure 1.

Figure 1

Study 2

     A research team decides to study the effects of the peroxidase facilitated reaction in the presence of heat. Reaction rates are known to speed up when heat is applied; however, at a certain point enzymes, such as peroxidase, denature and the reaction slows. The scientists perform a control trial at room temperature  and test trials at , , and . The results are plotted in Figure 2.

Figure 2

What color does the spectrophotometer in Study 1 measure?

    Criminal and deviant acts have plagued society for many years. Scientists have tried to isolate variables and factors of individuals susceptible to these behaviors. The goal of this research is to create models of individuals most likely to commit deviant acts. Prediction of criminal behavior could reduce crime rates on a grand scale. Three scientists express their views on how to model criminal behavior and predict or prevent criminal acts.

Scientist 1

     Criminal behavior is the result of prehistoric tendencies that favor aggressive and deviant acts for survival. A study of the corpses of criminals revealed that many exhibited prominent brows, strong upper bodies, large chests and other attributes that lend to a physical model of prediction that classifies criminals as "evolutionary throwbacks."

Scientist 2

     Criminal behavior is the result of psychological ills that may be remedied with treatment and hospitalization. Studies have revealed that many criminal men possess an XYY makeup. This means that they contain one extra Y chromosome that results in aggressive, deviant, and criminal behaviors. Further studies have revealed that these genetic abnormalities can alter hormonal secretion and lead to criminally deviant actions and behaviors. Increased serotonin levels can lead to aggressive tendencies while altered dopamine secretion can chemically reward the commitment of deviant acts by stimulating pleasure receptors.

Scientist 3

     Criminal behavior is the result of neurological abnormalities that can be studied and mapped. Studies of criminal and non-criminal persons have revealed inconsistencies in brain scans and neurological makeup. These alterations in brain chemistry and function have resulted in the development of sociopathic and narcissistic tendencies. These tendencies often increase probabilities for deviant and violent outbursts. The best way to predict criminal behavior is to utilize neurological scanning and mapping procedures.

The passage states that Scientist 1 only studied the corpses of known criminals in order to develop his model. Is this method of research scientifically valid or reliable?

     Criminal and deviant acts have plagued society for many years. Scientists have tried to isolate variables and factors of individuals susceptible to these behaviors. The goal of this research is to create models of individuals most likely to commit deviant acts. Prediction of criminal behavior could reduce crime rates on a grand scale. Three scientists express their views on how to model criminal behavior and predict or prevent criminal acts.

Scientist 1

     Criminal behavior is the result of prehistoric tendencies that favor aggressive and deviant acts for survival. A study of the corpses of criminals revealed that many exhibited prominent brows, strong upper bodies, large chests and other attributes that lend to a physical model of prediction that classifies criminals as "evolutionary throwbacks."

Scientist 2

     Criminal behavior is the result of psychological ills that may be remedied with treatment and hospitalization. Studies have revealed that many criminal men possess an XYY makeup. This means that they contain one extra Y chromosome that results in aggressive, deviant, and criminal behaviors. Further studies have revealed that these genetic abnormalities can alter hormonal secretion and lead to criminally deviant actions and behaviors. Increased serotonin levels can lead to aggressive tendencies while altered dopamine secretion can chemically reward the commitment of deviant acts by stimulating pleasure receptors.

Scientist 3

     Criminal behavior is the result of neurological abnormalities that can be studied and mapped. Studies of criminal and non-criminal persons have revealed inconsistencies in brain scans and neurological makeup. These alterations in brain chemistry and function have resulted in the development of sociopathic and narcissistic tendencies. These tendencies often increase probabilities for deviant and violent outbursts. The best way to predict criminal behavior is to utilize neurological scanning and mapping procedures.

A new wave of research indicates that social forces shape possible deviant behaviors within humans. Legislators opt to use only this evidence to remedy issues associated with criminal tendencies. Assuming the information in the passage is correct, which of the following statements best describe this logic?

Passage I

An endocrinologist is a doctor who studies, diagnoses, and treats patients with hormone imbalances. There are many hormones involved in daily functioning. Two of the most important hormones for digestion are insulin and glucagon. These hormones are secreted by the pancreas. Insulin is released after a meal to help body cells take in sugar and covert it to energy. Glucagon is released when the body needs more energy, such as during exercise, and causes body cells to secrete sugar into the blood. A team of endocrinologists performed the following experiments:

Experiment 1

Five participants were given 15 grams of pure glucose (sugar). The participants had not eaten for four hours prior to the experiment. All five participants were healthy and had no serious medical conditions. A team of endocrinologists monitored the blood sugar and insulin levels of the participants over time. Figure 1 is a graph of the average levels in the five participants.

Experiment 2

Two participants were given 15 grams of pure glucose (sugar). The participants had not eaten for four hours prior to the experiment. One participant was healthy and the other had a hormone disease. Figure 2 is a graph of the blood sugar levels of the participants over time.

Diabetes is a disease where a person may need to take insulin to help the body cells take up blood sugar. According to the passage, when should a person with diabetes take insulin?

Passage I

An endocrinologist is a doctor who studies, diagnoses, and treats patients with hormone imbalances. There are many hormones involved in daily functioning. Two of the most important hormones for digestion are insulin and glucagon. These hormones are secreted by the pancreas. Insulin is released after a meal to help body cells take in sugar and covert it to energy. Glucagon is released when the body needs more energy, such as during exercise, and causes body cells to secrete sugar into the blood. A team of endocrinologists performed the following experiments:

Experiment 1

Five participants were given 15 grams of pure glucose (sugar). The participants had not eaten for four hours prior to the experiment. All five participants were healthy and had no serious medical conditions. A team of endocrinologists monitored the blood sugar and insulin levels of the participants over time. Figure 1 is a graph of the average levels in the five participants.

Experiment 2

Two participants were given 15 grams of pure glucose (sugar). The participants had not eaten for four hours prior to the experiment. One participant was healthy and the other had a hormone disease. Figure 2 is a graph of the blood sugar levels of the participants over time.

Which Participant could have been a part of Experiment 1 and Experiment 2?