D. cell wall
both animals and walls have cell membranes for support
the cytoplasm holds the organelles in place
The appropriate options of the given question is as follows:
a. The high specific heat capacity of water allows the body to absorb a large amount of excess heat energy.
b
. The high heat of vaporization of water allows the body to remove excess heat through a phase change of water from liquid to gas.
c
. The high surface tension of water contributes to the physical process by which water leaves the body.
d
. The high melting temperature of the water allows the body to remove excess heat through a phase change of water from solid to liquid.
Answer:
The correct answer is - Option a. and b.
Explanation:
Sweating is one of the processes of the homeostasis that helps in the regulation of the body temperature in humans and other animals. Sweat helps in preventing the body from overheating if the external environment is high in temperature. The sweat evaporates to release heat in form of calories which helps in the regulation of body temperature.
Due to the high heat capacity of water, helps to more evenly distribute or transfer heat in the body. It helps in maintaining a more even temperature by transporting heat from warm places to cool places.
Thus, the correct answer is - a and b.
Answer:
- <u>b. Latitude</u>
- <u>d. Degrees</u>
- <u>b. Equator</u>
- <u>a. Prime Meridian</u>
- <u>b. Longitude</u>
Explanation:
1. The imaginary line that extends horizontally from east to west on a map or a globe that measures distance is called <u>latitude</u>.
2. <u>Degrees</u> are not part of the globe.
3. The <u>Equator</u> is known as zero latitude.
4. The <u>Prime Meridian</u> is an imaginary line which lies on zero degrees longitude.
5. <u>Longitude</u> describes the places in degrees north or south of an equator.
All viruses contain nucleic acid, either DNA or RNA (but not both), and a protein coat, which encases the nucleic acid. Some viruses are also enclosed by an envelope of fat and protein molecules.
Answer:
K (carrying capacity)
Explanation:
In logistic growth, the population growth decreases as population size approaches its maximum value, i.e., when the carrying capacity of the environment is reached. In consequence, the carrying capacity can be defined as the maximum population size in a particular environment, which depends on a given resource (e.g., food, habitat, water, etc).
The logistic equation for logistic growth is: dN/dt = rN [K - N/K] >>
dN/dt = change in population size in a given time interval
N = population size
r = intrinsic rate of increase
K = carrying capacity
