both temperature and pressure increase as you go down inside earth. hi I am epic
both temperature and pressure increase
True. Temperature and pressure both increase with increasing depth within the Earth.
when you go up in the air the more pressure you feel it is the same when you go deeper under water
Using the equation P1V1/T1 = P2V2/T2 we find there are two variables we might influence in order to change the pressure of a gas. (P=pressure, V=volume, T=temperature in degrees Kelvin) By increasing or decreasing the temperature of the bottle, you can increase or decrease the pressure within. If the bottle is made of a flexible material, like plastic, you can apply pressure to the bottle. By either squeezing the bottle or increasing atmospheric pressure outside, you deform the bottle and decrease it's volume. Since the quantity of gas inside the bottle is constant, the decrease in volume increases the pressure. Likewise to decrease the pressure in a sealed flexible bottle, you can decrease air pressure outside.
The pressure of the air inside it. The higher the balloon rises, the lower the outside air-pressure. With less pressure outside, the balloon expands because of the pressure of the air inside it. Eventually, the balloon bursts, and scientists recover the instruments when they fall to earth.
both temperature and pressure increase
Both temperature and pressure increase.
True. Temperature and pressure both increase with increasing depth within the Earth.
The pressure will increase
when you go up in the air the more pressure you feel it is the same when you go deeper under water
Increasing the temperature or pressure of the gas the volume increase.
Rigid container implies the volume stays constant. The pressure will increase, and if the container is well insulated, the temperature may also increase.
When the temperature of a gas is increased at a constant pressure, its volume increases. When the temperature of a gas is devreased at constnt pressure, its volume decreases.
In a closed system the pressure is directly proportional to the temperature (Gay-Lussac law).At higher temperature the volume tend to increase but in a container the volume is limited.
Deformation occurs
It the ball has air in it, then an increase of temperature will increase the pressure within the ball, over the short term. Over the long term, all pressurized tennis balls lose pressure. If the ball is the pressureless type, it has no air to be affected by temperature.
decrease the temperature or increase the volume