histamines.
No, in fact you would be increasing the pressure. What you would have to do is increase the area while keeping the force constant which then would decrease the pressure.
Yes, Barometric Pressure and Atmospheric Pressure are the same thing. Except one describes what Atmospheric Pressure would be measured in.
This would actually be a simple answer: Pressure decreases. Simply because of the fact that as altitude increases, the less air there is on top of you, and the lower the pressure would be.
No, if anyone tried, the lava under the crust would melt any attempt. And even if someone managed to get past that, the pressure in the core would probably cause the machine that got the people there to explode.
Think of it this way, if you had a plastic bottle filled with water and you poked a hole in the side, would water squirt out or would air squirt in? If air squirted in, then the air pressure would have to be higher. But since we know that the water would squirt out, we know that the water's pressure must be stronger. Of course, this is under normal conditions. If you pumped the air pressure up enough, then the air pressure may become stronger than standard water pressure. So actually, water pressure is generally stronger than air pressure.
histamines.
The osmotic pressure. This is the pressure which would have to be applied to a solution to stop water entering if it was separated from pure water by a semipermeable membrane.
Fluid with a high solute concentration would be hyper-osmotic compared to water, and thus would be expected to exert osmotic pressure if separated from pure water with a semipermeable membrane.
Antidiuretic hormone
Well on this one you would have to ask your talented teacher , who went to school for this :) peace out
ADH (Antidiuretic Hormone)
What is osmotic potential?Osmotic potential is defined as the ability of a solution to suck water in if it was separated from another solution by a semi-permeable (meaning water gets through, but not the solution) membrane. This means that if you have pure water next to salt water, separated by such a membrane, the pure water would run over to the saltwater, while the water in the saltwater would stay where it is. Water, then, always moves towards a higher concentration, from high pressure to low pressure. This is also how trees get water from the roots up to the canopy, as they don't have beating heart like we do. The plants use their osmotic potential to transport water through the cells from the bottom (roots) where the osmotic pressure is high, to the top (canopy) where the osmotic pressure is low. As the water is transported up, the osmotic pressure in the roots sinks, allowing more water to run in from the soil.
The osmotic pressure of the blood would decrease!
Proteins given intravenously would raise a patient's blood volume and pressure. This is mainly due to the fact that solutes have the same osmotic pressure.
Osmotic pressure of saline (0.91% NaCl w/v) is arround 0.0085 ATM.The osmotic pressure is 7.58 ATM at 25 °C. P=MRT The molarity of 0.9% NaCl is 0.155M. But it has 2 ions per formula so 0.31 mol/L * 0.082 latm/Kmol * 298K= 7.58 ATM
The cell would swell and burst because of the osmotic pressure causes water to move into the cell.
Being without a source of water causes the body to seek homeostasis. This involves the osmotic pressure between cells to begin drawing water from other parts of your body.