<h3>Phototropism</h3>
Yes, the given activity is a correct example which describes phototropism
Phototropism is an adaptation or a survival mechanism undertaken by some plants to receive maximum sunlight in order to prepare more food and energy through photosynthesis.
Explanation:
Phototropism takes place through receptor proteins called phototropins which act as blue light photoreceptors.
Phototropic activity:
Phototropism can best be observed by planting few plants including phototropic plants in pots and keeping them near the window to receive sunlight.
The natural bending of phototropic plants towards the window denotes their inclination towards sunlight.
The growth of sunflower plants facing towards the sun and blooming of lotus flower under sunlight are all examples of phototropism.
Other plants which are phototropic are Phalaenopsis, azuki beans, fungus of Phycomyces species, etc.
Mitochondria transfer chemical energy from food to ATP; chloroplasts transform light energy into the chemical energy of ATP.
<span>Mitochondria and chloroplasts are capable for converting chemical energy<span> from food (or light) in the cell to energy in a form usable to that cell (ATP).</span></span>
<span>High-energy electrons which are produced during the oxidation of food molecules (or from the action of sunlight in case of chloroplast) are transferred through the electron transport chain located in the inner membrane of mitochondria. These electron transfers release energy that is used to pump H+ and thus generate an electrochemical proton gradient. H+ moves down its electrochemical gradient through a protein called ATP synthase permitting the proton gradient to drive the production of ATP.</span>
Carrot i would say is the answer.
Answer:
Herbivores eat plants to which the herbivores feed carnivores to create a never ending cycle.
Explanation:
I believe that it's the nervous system.