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Why is it important for new scientific findings to be published?  

A. Scientists will get paid if their findings are published.

B. Publishing findings will help scientists become more biased.

C. Other scientists can validate or disprove the findings

D. This prevents other scientists from performing similar tests

Answer Explanation:

Other scientists can validate or disprove the findings.

It is important for new scientific findings to be published so that other scientists can review the research and either validate or disprove the findings.

This process of peer-review helps to ensure the accuracy and reliability of scientific research.

Choice A.

Scientists will get paid if their findings are published is not correct because while some scientists may receive funding or grants for their research, the primary goal of publishing scientific findings is not for financial gain.

Choice B.

Publishing findings will help scientists become more biased is not correct because the goal of publishing scientific findings is to share information and promote transparency, not to promote bias.

Choice D.

This prevents other scientists from performing similar tests is not correct because publishing scientific findings allows other scientists to build upon the research and perform further tests to validate or disprove the findings.

 

Therefore, the Correct Answer is C.

More Questions on TEAS 7 Science

  • Q #1: Which of the following microorganisms lack their own metabolic pathways and can only reproduce inside of a host cell?

    A. Bacteria

    B. Protozoa

    C. Helminths

    D. Viruses

    Answer Explanation

    Viruses.

    Viruses lack essential machinery needed to reproduce by themselves.

    In fact, viruses can only reproduce after infecting a living cell - a process called viral replication.

    Once inside a living cell, viruses re-program the cell’s machinery to produce viral proteins and genetic material to make new copies of themselves.

     

    Choice A, Bacteria, is not the correct answer because bacteria have their own metabolic pathways and can reproduce outside of a host cell.

    Choice B, Protozoa, is also not the correct answer because protozoa are singlecelled eukaryotes that have their own metabolic pathways and can reproduce outside of a host cell.

    Choice C, Helminths, is not the correct answer because helminths are multicellular parasitic worms that have their own metabolic pathways and can reproduce outside of a host cell.

  • Q #2: Which of the following substances is responsible for donating H+ ions to act as a buffer when blood pH rises?  

    A. Carbon dioxide

    B. Carbon monoxide

    C. Carbonic acid

    D. Oxygen

    Answer Explanation

    Carbonic acid.

    In the human body, maintaining the pH of the blood within a narrow range is critical for proper physiological functioning.

    One of the buffering systems that helps to regulate blood pH involves the conversion of carbon dioxide (CO2) and water (H2O) into carbonic acid (H2CO3), which then dissociates into hydrogen ions (H+) and bicarbonate ions (HCO3-).

     

    Carbonic acid (H2CO3) is responsible for donating H+ ions to act as a buffer when blood pH rises.

    When blood pH rises (becomes more alkaline), carbonic acid dissociates, and the H+ ions combine with bicarbonate ions to form more carbonic acid.

    This helps to remove excess H+ ions from the blood and prevent the pH from rising too much.

    Option A, carbon dioxide, is involved in the buffering system through its conversion to carbonic acid.

    However, it does not directly donate H+ ions to act as a buffer when blood pH rises.

    Option B, carbon monoxide, is a toxic gas that binds to hemoglobin in red blood cells, preventing them from carrying oxygen.

    It is not involved in the buffering system and does not donate H+ ions.

    Option D, oxygen, is carried by hemoglobin in red blood cells and is essential for respiration.

    It is not involved in the buffering system and does not donate H+ ions.

  • Q #3: Which of the following represents the complementary strand of a DNA sequence 3' TCGATCGCA 5'?

    A. 3' AGCTAGCGT 5'

    B. 5’ AGCTAGCGT 3’

    C. 5' UCGAUCGCA 3'

    D. 3' TCGUTCGCU 3'

    Answer Explanation

    In DNA, the nitrogenous bases adenine (A) and thymine (T) pair together, while cytosine (C) and guanine (G) pair together.

    Therefore, the complementary strand of the given DNA sequence 3' TCGATCGCA 5' would have the complementary nitrogenous bases as:

    5’ AGCTAGCGT 3’

    NOTE: The 5’ to 3’ direction of the complementary strand is opposite to that of the given strand.

    Choice A.

    3’ AGCTAGCGT 5’ is not correct because it is not complementary to the given strand.

    Choice C.

    5’ UCGAUCGCA 3’ is not correct because it contains uracil (U), which is a nitrogenous base found in RNA, not DNA.

    Choice D.

    3’ TCGUTCGCU 3’ is not correct because it also contains uracil (U), which is a nitrogenous base found in RNA, not DNA.