Under what conditions should you use the Multiplication/Product Rule and what notation should you use?
a. With mutually exclusive events; P (A or B)
b. With mutually exclusive events; P (A and B)
c. With independent events;P(A or B)
d. With independent events; P (A and B)
Answer: d. With independent events; P (A and B)
You might also like to view...
Explain how nutrient-rich runoff can cause waters to become hypoxic
A. Algae and cyanobacteria flourish on the nutrients in the run-off. Heterotrophic microbes then flourish on the organic molecules produced by these organisms, using oxygen in the process. This consumption of oxygen leads to a hypoxic state in the area. Larger animals cannot survive in the hypoxic area. B. Algae and cyanobacteria flourish on the nutrients in the run-off, using oxygen in the process. This consumption of oxygen leads to a hypoxic state in the area. Larger animals cannot survive in the hypoxic area. C. The nutrients in the run-off often include chemicals that spontaneously oxidize in the presence of oxygen. As such, they tend to deplete the amount of oxygen present in an area simply by being present themselves. This consumption of oxygen leads to a hypoxic state in the area. Larger animals cannot survive in the hypoxic area. D. It doesn't. This claim is a scare tactic used by environmental extremists to prevent farmers and individuals from fertilizing their crops and lawns. There is no induction of a hypoxic state in bodies of water where run-off occurs.
The birth control pill is a mixture of ________ that prevent the maturation of the oocyte
a. progesterone and estrogen b. estrogen and luteinizing hormone c. estrogen and follicular stimulating hormone d. progesterone and testosterone e. testosterone and growth hormone
A specific wavelength of UVA can be used to treat
A) swimmer's ear. B) RMSF. C) acne. D) cat scratch disease. E) bacteremia.
How does a cell surface receptor respond to the binding of a signaling molecule?
a. The cell surface receptor denatures. b. The signal is transduced through the plasma membrane and into the cell. c. The receptor relays a signal to another location on the cell surface. d. The cell surface receptor flips through the membrane to the inside of the cell. e. Polarization of the cell surface changes.