Want this question answered?
afferent
There are two parts to the lymphatic system, the lymph vessels and the lymph nodes. The vessels carry excess interstitial fluid away to the vena cava just before it enters the heart. These vessels run through the lymph nodes. The nodes produce lymphocytes that piggyback the lymph flow to join the blood circulation.
to your bloodstream and eventually to your brain.
As much as the plant needs. The excess water is thrown out.
When all of the nutrients have been absorbed from the chyme, it enters the large intestine where the water is absorbed from it.
Lymph
The sequence of fluid flow is blood capillaries.... interstitial space or interstitial fluid..... lymphatic capillaries.... lymphatic vessels.... lymphatic ducts..... junction of the internal jugular and subclavian veins. Then what helps this whole sequence is the skeletal muscle pump and the respiratory pump.
The virus enters the body through the mouth and travels from the intestine to the lymphatic system into the bloodstream and eventually invades the central nervous system and the brain.
afferent
Most of it is eventually radiated into space. Any object radiates energy, depending on its temperature.
If excess water moves into an animal cell, it will eventually burst. This happens if the cell is placed in a hypotonic solution (a solution with a lower solute concentration than the cell).
There are two parts to the lymphatic system, the lymph vessels and the lymph nodes. The vessels carry excess interstitial fluid away to the vena cava just before it enters the heart. These vessels run through the lymph nodes. The nodes produce lymphocytes that piggyback the lymph flow to join the blood circulation.
Bacteria enters the tonsils that contain lymph when you breath......open
While surrounding tissues it is called interstitial fluid. Once it enters the lymphatic system it is called lymphatic fluid.
It becomes heat. You can feel it at the top of the TV set. All wasted energy is eventually converted to heat.
Yes, water in a puddle enters the atmosphere when it evaporates. It becomes water vapor which will eventually fall as precipitation somewhere else.
The majority of nitrogen which enters the body does so in the form of protein, which is composed of amino acids. Once the protein is broken down into these subunits, it enters the bloodstream where the cells of the body can absorb it and use it in many different ways. Excess amino acids (and thus excess nitrogen), along with cellular wastes containing nitrogen, are eventually filtered out of the blood by the kidneys and excreted in the urine in the form of urea, a waste product.