you may need them pulled out and put new ones put in. My Friend has to have them done. He is 56 years old and takes care of them. What else can he do?
You went too hard
if you had sex before your stomach started hurting your pregnant
The pressure at any point at the bottom of the tank is determined by the height of the water column above that point. The pressure is given by the formula P = ρgh, where ρ is the density of water (around 1000 kg/m^3), g is the acceleration due to gravity (around 9.81 m/s^2), and h is the height of the water column (3.5 meters in this case). Plugging in these values will give you the pressure at the bottom of the tank.
a normal blood pressure depends on your age and weight. I am 34 and weigh about 170 pounds and I have a very good blood pressure. The top number is usually around 105 and the bottom is usually around 75.
The pressure at the bottom of the pitcher of water 35cm deep is higher than at the bottom of the bathtub of water 30cm deep. Pressure in a fluid increases with depth, so the deeper the water column, the greater the pressure at the bottom. This is due to the weight of the water above exerting a force on the bottom.
To determine the pressure at the top and bottom of a 6-meter high column of fluid pressurized by a pump to 2 bar, we need to consider the hydrostatic pressure due to the height of the fluid column. The pressure at the bottom of the column will be the pump pressure plus the hydrostatic pressure, while the pressure at the top will be just the pump pressure. Assuming the fluid has a density of about 1000 kg/m³, the hydrostatic pressure at 6 meters is approximately 0.6 bar (using the formula ( P = \rho g h )). Therefore, the pressure at the bottom will be around 2.6 bar, and at the top, it will remain at 2 bar.
At the bottom, there is the additional weight of the gas or liquid above the surface level.
The pressure in the mesosphere is very low, around 0.1 millibars at the bottom of the mesosphere and decreasing even further with altitude. This low pressure is due to the thinning of the atmosphere at higher altitudes in the Earth's atmosphere.
You are pregnant!
The atmospheric pressure at the bottom of the Grand Canyon is approximately 90 kPa (kilopascals), which is slightly lower than the standard atmospheric pressure at sea level (about 101.3 kPa). This decrease in pressure is primarily due to the elevation of the Grand Canyon, which is about 1,200 meters (around 4,000 feet) above sea level. As altitude increases, the atmospheric pressure decreases, resulting in the lower pressure observed at the canyon's depth.
Because water pressure is more intense at depth than it is near the surface - hence the dam has to be stronger at the bottom - it withstands more pressure at the bottom.
Fluid pressure is the greatest at the deepest point. If the fluid is in different shaped vessels, the pressure is the greatest at the bottom of the vessel no matter what the shape.