Carbon cycle refers to an array of procedures by which the compounds of carbon are interconverted in the environment, comprising the inclusion of carbon dioxide into living tissue by the process of photosynthesis and then getting back into the atmosphere via respiration, the burning of fossil fuels, and the decomposition of dead organisms.
The following are the steps that illustrate how the carbon cycle functions:
1. Carbon enters the atmosphere as carbon dioxide from combustion and respiration.
2. The absorption of carbon dioxide takes place by the producers to manufacture glucose in photosynthesis.
3. The animals feed on the plant passing the carbon components through the food chain. The majority of the consumed carbon is exhaled in the form of CO2, which was produced at the time of aerobic respiration. The plants and animals die eventually.
4. The dead plants and animals get dissociated by the dead organisms and return the carbon present in their bodies back to the atmosphere as CO2 by the process of respiration. In certain occasions, the dead plant and animals get converted into fossil fuel, which is available in future for combustion.
Answer:
flat-panel display or other electronically modulated optical device that uses the light-modulating properties of liquid crystals combined with polarizers. Liquid crystals do not emit light directly, instead using a backlight or reflector to produce images in color or monochrome.
Explanation:
Answer:
The elements in carbohydrates are carbon C, hydrogen H and oxygen O.
The elements in proteins are carbon C, hydrogen H, oxygen O and nitrogen N
The elements in lipids contain carbon C, hydrogen H, oxygen O, nitrogen N and phosphorus P.
The elements in fats/oils contain carbon C, hydrogen H and oxygen O
Explanation:
If yellow seed color is primarily dominant, future generations will likely turn out yellow as well due to the relationship between dominant and recessive genes. Dominant genes and traits are mostly more likely to show in future generations.
