ATI TEAS 7
TEAS Practice Test Science
1. A scientist wants to conduct quantitative research. Which method should they use?
- A. Collecting patient narratives.
- B. Tracking the dosage of a drug and its blood levels in the patient.
- C. Observing a patient's physical changes.
- D. Writing journal notes about the research experience.
Correct answer: B
Rationale: In quantitative research, numerical data is collected and analyzed. Choice B, tracking the dosage of a drug and its blood levels in the patient, involves collecting quantitative data, making it the correct method. Choices A, C, and D involve qualitative data such as narratives, physical observations, and journal notes, which do not align with the quantitative research method.
2. Which of the following statements is FALSE regarding the use of qualitative and quantitative data in scientific research?
- A. Quantitative data is collected through numerical measurements.
- B. Quantitative data is more accurate than qualitative data.
- C. Qualitative data is focused on perspectives and behavior.
- D. Qualitative data is collected through observation and interviews.
Correct answer: B
Rationale: The correct answer is B because quantitative data is not inherently more accurate than qualitative data. Both types of data have their strengths and limitations, and the choice of data type depends on the research question and methodology. Quantitative data is collected through numerical measurements and involves statistical analysis. On the other hand, qualitative data focuses on perspectives, behaviors, and meanings and is typically gathered through observation and interviews. While quantitative data provides numerical precision, qualitative data offers in-depth insights into behaviors and perspectives that cannot be quantified, making them equally valuable in scientific research.
3. Which of the following factors does NOT affect the rate of dissolution of a solute in a solvent?
- A. Temperature
- B. Pressure
- C. Surface area
- D. Particle size
Correct answer: B
Rationale: Pressure does not affect the rate of dissolution of a solute in a solvent. The factors that affect the rate of dissolution include temperature, surface area, and particle size. Temperature generally increases the rate of dissolution by providing more energy for the solute particles to break apart and mix with the solvent. Increasing the surface area of the solute by grinding it into smaller particles or increasing its contact area with the solvent can also speed up dissolution. Similarly, reducing the particle size of the solute can increase the rate of dissolution by providing more surface area for interaction with the solvent. Pressure, however, does not have a significant impact on the dissolution process and is not a factor that influences the rate at which a solute dissolves in a solvent.
4. How do isotopes affect the atomic mass of an element?
- A. Isotopes have no effect on the atomic mass of an element.
- B. Isotopes cause the atomic mass of an element to vary slightly.
- C. Isotopes cause the atomic mass of an element to be exactly the same for all isotopes of that element.
- D. Isotopes cause the atomic mass of an element to vary greatly.
Correct answer: B
Rationale: Isotopes are atoms of the same element that have the same number of protons but different numbers of neutrons. Since the atomic mass of an element is the weighted average of the masses of its isotopes, the presence of isotopes causes the atomic mass of an element to vary slightly. This variation occurs because different isotopes have different masses due to their varying numbers of neutrons. The atomic mass is affected by the abundance of each isotope, leading to a slight fluctuation in the overall atomic mass of the element. Choice A is incorrect because isotopes do influence the atomic mass. Choice C is incorrect because isotopes have different masses, affecting the overall atomic mass. Choice D is incorrect as isotopes typically do not cause a significant variation in atomic mass, but rather a slight fluctuation.
5. What initiates the process of coagulation?
- A. When blood changes from a gel to liquid form.
- B. Begins instantly after a blood vessel has been damaged.
- C. A simple single-phase response of the blood drying upon contact with the air.
- D. Also known as clotting, or the formation of fibrin.
Correct answer: B
Rationale: The correct answer is B. The process of coagulation, also known as blood clotting, begins instantly after a blood vessel has been damaged. When a blood vessel is injured, the body quickly responds by initiating a cascade of reactions to form a blood clot, which helps to stop bleeding and promote healing. Choices A, C, and D are incorrect because coagulation does not occur just when blood changes from a gel to liquid form, it is not a response of blood drying upon contact with air, and it is not simply the formation of fibrin. The primary trigger for coagulation is vascular injury.
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