The answer to this question would be: <span>by converting glucose to glycogen.
Brain cells only able to use energy from glucose, so if the body glucose level is too low the brain cells can't work as it doesn't get any energy/food. When glucose level is decreased, the liver will start to convert glycogen into glucose to keep the glucose level.</span>
Answer:
The correct answer will be- to synthesise the ATP molecules in respiration process.
Explanation:
The electron transport chain is the last phase of the cellular respiration which helps in the synthesis of a large number of ATP molecules.
The ATP molecules are synthesized when the energy generated by the movement of protons through CF₀ unit takes place.
The movement of electrons in the chain leads to the movement of proton from the mitochondrial matrix to the intermembrane space. This creates the proton gradient across the membrane which to equilibrate the protons move down the concentration gradient through ATP synthase. The energy while this is used to rotate the ATP synthase which coverts the ADP to ATP.
Thus, to synthesise the ATP molecules in the respiration process.
<u>Answer</u>: linear diameter
<em>The linear diameter of moon is 3754 km.
</em>
<u>Explanation:</u>
<em>Moon is the only satellite of earth. It doesn’t produce light on its own but reflects the light of sun and appears lighted up. </em>The diameter of moon can be found out using parallax method.
In parallax method moon is observed through a telescope from a point on earth the angle θ between the <em>diameter of the moon</em> and this point on earth is measured. This angle is mathematically equal to the ratio of diameter D of moon and the <em>shortest distance S between moon and earth.</em>
<em>Thus diameter of moon can be calculated by finding the product of the distance between moon and earth and the angle.
</em>
The molecule that an enzyme works with are called substrates. The substrates bind to a region on the enzyme called the active site. The chemical reactions result in a new product or molecule that then separates from the enzyme, which goes on to catalyze other reactions.
