The pressure that builds in a plant cell as a result of osmosis is called turgor pressure.
When lactic acid builds up in the body, it can lead to muscle fatigue, cramps, and soreness. In severe cases, it can cause a condition called lactic acidosis, which can result in nausea, weakness, and even organ damage.
The result of osmosis is the movement of solvent molecules (usually water) across a semipermeable membrane from an area of lower solute concentration to an area of higher solute concentration, in order to achieve an equilibrium. This process helps in maintaining proper water balance in cells and tissues.
Yes, gas pain can cause shoulder pain. When gas builds up in the digestive system, it can create pressure that radiates to other areas of the body, including the shoulders. This can result in discomfort or pain in the shoulder region.
If osmosis didn't take place in the human body, cells wouldn't be able to regulate their water balance, leading to dehydration or overhydration. This could disrupt cellular functions and ultimately result in organ failure. Osmosis is essential for maintaining proper hydration levels and overall cell health in the body.
Single pass reverse osmosis means the feed water stream is first sent through the initial RO system. The product water from this system is treated further with yet another RO system. The result is highly purified water.
latic acid
When pressure builds between tectonic plates, it can eventually lead to an earthquake as the plates suddenly release the built-up stress by sliding past each other. This movement can cause the ground to shake and result in damage to buildings and other structures in the surrounding area.
they become turgid.
They are a result of tetonic activity. they occur when two plates push together under a great pressure and then begin to fold upwards. when there is a weakness in the plates the mantles pressure builds and magma comes to the surface.
Pressure and magma build up beneath the surface of a dormant volcano. This buildup can result in an eruption if there is a sudden release of pressure or new magma intrusion into the volcano's system.
Salt affects the rate of osmosis by increasing the osmotic pressure of a solution. This makes it harder for water molecules to move through a semi-permeable membrane, slowing down the rate of osmosis. Higher salt concentrations result in a slower rate of osmosis compared to lower salt concentrations.
Magma reaches the Earth's surface through a process called volcanic eruption. This occurs when pressure builds up underground and forces the magma to flow and eventually break through the Earth's surface. Once the magma reaches the surface, it is then called lava.
When lactic acid builds up in the body, it can lead to muscle fatigue, cramps, and soreness. In severe cases, it can cause a condition called lactic acidosis, which can result in nausea, weakness, and even organ damage.
When pressure builds up along a fault, it can result in an earthquake as the stored energy is released through sudden movement along the fault line. This movement can cause the rocks on either side of the fault to slip, producing seismic waves that we feel as shaking on the Earth's surface.
The end result of diffusion is the equal distribution of particles or molecules across a space, moving from an area of higher concentration to one of lower concentration. For osmosis, the end result is the movement of water across a semi-permeable membrane to equalize the concentration of solute on both sides.
One effect of too much pressure building up in Earth's crust is the occurrence of earthquakes. The release of stress along fault lines due to the buildup of pressure can result in sudden movements in the Earth's crust, causing vibrations and shaking.
The maximum pressure of vapor that can build up in a closed container is the vapor pressure of the substance at the given temperature. Once the vapor pressure is reached, the system reaches equilibrium and no further increase in pressure occurs. Any additional vapor will condense back into liquid form.