Respiration releases energy for use in life processes. There are two types of respiration, aerobic (uses oxygen) and anaerobic (does not use oxygen). Respiration can produce useful products that have uses in a range of industries.
Energy is stored in the form of atp, which is done in the mitochondria in the site of protoplasm .
That process is called as biological oxidation. Glucose is the best example of biological oxidation. Here the end products are same. They are water and carbon bi oxide. In the biological oxidation the energy is released in step wise fashion in multiple steps. In the chemical oxidation the energy is released in single step. The amount of energy is exactly same in both the processes. Chemical oxidation is like jumping from the top of the building. Biological oxidation is like coming down via steps. You come down at the same place. But you may end up in braking your legs in the process of jumping down. In biological oxidation, you do not end up in braking your legs.
During photosynthesis, water, carbon dioxide, and light come together in the cells to create the molecule called glucose. During cellular respiration, the glucose is broken down into 36 to 38 molecules of Adenosine Triphosphate, or ATP, which is used to provide energy to the organism.
Here are some,What kinds of energy sources are there?Where dose energy come from?What is energy?
Three main things come from a burning candle: light, heat, Thermal energy x
Sun
1. Hydrogen plus oxygen = water plus energy. 2. It came from sunlight ... via a chloroplast in some plant.
Respiration is a function in which glusose and oxygen form energy. I do not know what the roots of words are.
the energy comes from respiration occurring in the mitochondria of the companion cells
The energy that is released during cellular respiration comes from chemical bonds. When these bonds are broken, free energy is released.Much of this energy is lost as heat, but some is trapped in new bonds, especially in the molecule ATP. Each time a large packet of energy is released during respiration, the cell synthesizes a molecule of ATP.The cell needs a high-energy chemical compound to start with, just as a car needs a high-energy fuel in the tank. One such compound is glucose, which has a significant amount of energy in its bonds. That energy got there when a plant trapped some light energy and used it to synthesize sugar from simpler compounds.Other high-energy compounds, such as glycogen and fats (lipids) can be used for cellular respiration. They are converted to glucose (in the case of glycogen and some other polysaccharides) or to some other compound in the respiration pathway.
No. The cell's energy comes from the mitochondria, which are the site of aerobic cellular respiration.
No. The cell's energy comes from the mitochondria, which are the site of aerobic cellular respiration.
from the blood stream, both carbohydrates and oxygen.
No. A cell's energy comes from the mitochondria, which are the site of aerobic cellular respiration.
The energy for photosynthesis comes from respiration. The plant takes in oxygen and uses it for energy with in its cells. The chloroplast have a green substance called chlorophyll which absorbes the light needed for photosynthesis. the reaction happens there. Unfortunately the previous answer is not quite right. The ultimate source of energy for photosynthesis is sunlight. Plants convert the light energy into chemical energy in the form of glucose, which they can then use as a source of energy in their cells. Energy is released from glucose by respiration.
A cell releases energy when glucose(food) and oxygen come together, then they produce water, Carbon Dioxide, and energy. a simpler form of this is the equation oxygen+glucose=water+carbon dioxide+energy
Energy is released from the chemical bonds in the substance that's burning.
it comes out the same time it it released into stores