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Which of the following physiological responses is caused by the release of antidiuretic hormone?

A. Increase in the concentration of calcium in the glomerulus.

B. Increase in water reabsorption in the collecting duct

C. Decrease in the concentration of calcium in the glomerulus.

D. Decrease in water reabsorption in the collecting duct

Answer Explanation:

Antidiuretic hormone (ADH), also known as vasopressin, is a hormone that helps regulate the amount of water in your body.

It works to control the amount of water your kidneys reabsorb as they filter out waste from your blood.

 

Choice A is not correct because an increase in the concentration of calcium in the glomerulus is not a physiological response caused by the release of antidiuretic hormone.

Choice C is not correct because a decrease in the concentration of calcium in the glomerulus is not a physiological response caused by the release of antidiuretic hormone.

Choice D is not correct because a decrease in water reabsorption in the collecting duct is not a physiological response caused by the release of antidiuretic hormone.

 

Therefore, the Correct Answer is B.

More Questions on TEAS 7 Science

  • Q #1: Parasitic worm infestation is hypothesized to be damaging to the host. However, scientists have recently discovered that worm infestation can relieve the effects of certain autoimmune disorders. In which of the following ways should the hypothesis be modified, given the new findings?  

    A. Worm infestation prevents the body from immune malfunction

    B. Worm infestation reduces the severity of certain autoimmune disorders

    C. Worm infestations exacerbate the body's immune reactions

    D. Lack of worm infestations is the cause of some autoimmune disorders

    Answer Explanation

    The hypothesis should be modified to include the new findings that worm infestation can relieve the effects of certain autoimmune disorders.

    A possible modification could be: “Parasitic worm infestation can have both damaging and beneficial effects on the host.

    While it can cause harm, it has also been found to reduce the severity of certain autoimmune disorders.”

    Choice A.

    Worm infestation prevents the body from immune malfunction is not correct because it overstates the findings and implies that worm infestation completely prevents immune malfunction, which is not supported by the evidence.

    Choice C.

    Worm infestations exacerbate the body’s immune reactions is not correct because it contradicts the new findings that worm infestation can relieve the effects of certain autoimmune disorders.

    Choice D.

    Lack of worm infestations is the cause of some autoimmune disorders is not correct because it overstates the findings and implies a causal relationship between lack of worm infestations and autoimmune disorders, which is not supported by the evidence.

  • Q #2: What is the approximate threshold value for mammalian neurons?

    A. -55 mV

    B. -80 mV

    C. +35 mV

    D. 0 mV

    Answer Explanation

    The approximate threshold value for mammalian neurons is -55 mV.

    The threshold potential is the critical level to which a membrane potential must be depolarized to initiate an action potential.

    Most often, the threshold potential is a membrane potential value between –50 and –55 mV

     

    The membrane potential of a neuron is determined by the distribution of ions across the cell membrane.

    At rest, the inside of a neuron is more negative than the outside due to the presence of negatively charged proteins and other molecules.

    The movement of ions across the cell membrane can change the membrane potential.

    For example, when sodium ions enter the cell, they make the inside of the cell more positive (less negative), causing depolarization.

    Choice B is incorrect because -80 mV is below the typical threshold value for mammalian neurons.

    Choice C is incorrect because +35 mV is above the typical threshold value for mammalian neurons.

    Choice D is incorrect because 0 mV is above the typical threshold value for mammalian neurons.

  • Q #3: Which of the following types of cells produce and release antibodies?

    A. Natural killer cells

    B. Cytotoxic T-cells

    C. Plasma B cells

    D. Helper T-cells

    Answer Explanation

    Plasma B cells.

    Antibodies are produced by specialized white blood cells called B lymphocytes (or B cells).

    When an antigen binds to the B-cell surface, it stimulates the B cell to divide and mature into a group of identical cells called a clone.

    The mature B cells, called plasma cells, secrete millions of antibodies into the bloodstream and lymphatic system.

     

    Choice A, Natural killer cells, is not the correct answer because natural killer cells are a type of white blood cell that play a major role in the host-rejection of both tumors and virally infected cells.

    Choice B, Cytotoxic T-cells, is not the correct answer because cytotoxic T-cells are a type of white blood cell that kills cancer cells, cells that are infected (particularly with viruses), or cells that are damaged in other ways.

    Choice D, Helper T-cells, is not the correct answer because helper T-cells are a type of white blood cell that play an important role in the immune system by helping other white blood cells fight infections.