<span>NO
In many functions of a living
organism, it cannot make its own energy. It uses energy from its environment, retrieves
and converts into a usable and edible matter. Organisms that can do this
process is the autotrophs, they can facilitate photosynthesis which they gather
energy from the sun, water and carbon dioxide in order to create energy by
then, the transfer of this energy to other organism is played by the food chain
–food web. </span>
Answer:
They are smaller than blood capillaries.
Explanation:
Lymphatic capillaries drains the extracellular fluid present between the cell spaces. The fluid is known as lymph as it enters the lymph capillaries. These capillaires drains into lymph vessels that drains to lymph nodes and lymph ultimately enters the venous circulation.
Lymphatic capillaries are slightly larger than blood vessels and these capillaries have close ends. The walls of lymph capillaries are made up of endothelial cells. The endothelial cells overlap in lymph vessels and when the pressure in ECF is greater these cells move and create a sort of gap for the movement of ECF inside the lymph capillary but when the pressure inside the capillary is greater these cells again overlap and does not allow the lymph to move outside of capillary. Thus lymph capillaries only allow the ECF to enter the capillary but does not allow the lymph to go out from capillary. Lymph capillaries have greater internal pressure than blood vessels.
<span>If the energy in glucose was released at once, most of the energy would be lost as light and heat. The light and heat could harm or even destroy the cell. The gradual process of cellular respiration allows the cell to control the release of energy into packages of ATP that can be used efficiently for cell activities.</span>
The correct answer is: A. Water molecules will move from Side A to Side B. The solution level on Side A will fall and the solution level on Side B will rise.
Because the barrier is permeable only for water, water will move via osmosis-down the gradient (into a area of higher solute concentration). Water tends to equalize the solute concentrations of the side A with the solute concentrations of the side B.
<span>The correct answer is B. Melting of glaciers. Glaciers are not salt water so adding them to the sea would reduce the salinity of the sea. Similar thing occurs when rivers flow into the sea or the ocean. Evaporating would make it more salty because the water would leave while salt would stay meaning there would be less water and more salt.</span>
