both temperature and pressure increase as you go down inside earth. hi I am epic
As you move downward from the crust to the core, both temperature and pressure increase. The temperature increases due to the geothermal gradient, where heat trapped from the earth's formation and radioactive decay is trapped. The pressure also increases due to the weight of the overlying rock layers pushing down.
True. As you go deeper into the Earth, both temperature and pressure increase due to the weight of the overlying material and the Earth's internal heat.
Pressure increases with depth inside the Earth due to the weight of the overlying layers of rock pressing down. Temperature also increases with depth due to the Earth's internal heat. The rate at which pressure and temperature change varies depending on factors like the composition of the Earth's layers and geothermal gradients.
The pressure inside the cylinder of oxygen will increase as the temperature rises. This is because an increase in temperature causes the oxygen molecules to move faster and collide with the walls of the cylinder more frequently, resulting in a higher pressure.
The state of rocks and metals inside the Earth is determined by temperature and pressure. As you go deeper into the Earth, both temperature and pressure increase, causing rocks and metals to exist in different states such as solid or molten.
Both temperature and pressure increase.
As you move downward from the crust to the core, both temperature and pressure increase. The temperature increases due to the geothermal gradient, where heat trapped from the earth's formation and radioactive decay is trapped. The pressure also increases due to the weight of the overlying rock layers pushing down.
The pressure of the gas inside the container will increase due to the increased kinetic energy of the gas molecules. This is described by the ideal gas law, PV = nRT, where P is pressure, V is volume, n is the number of moles, R is the gas constant, and T is temperature.
No, because the gas is in a rigid steel container, its volume cannot increase as the temperature increases (assuming the steel does not deform). Instead, the pressure of the gas inside the container will increase. Of course, if the pressure is high enough, the container will explode, lowering the pressure and causing the gas to expand.
The pressure will increase
True. As you go deeper into the Earth, both temperature and pressure increase due to the weight of the overlying material and the Earth's internal heat.
When a closed can is heated, the molecules inside the can gain energy and move faster, leading to an increase in pressure. This happens because the increase in temperature causes the molecules to collide more frequently with the walls of the can, exerting more force and increasing the pressure inside.
Pressure increases with depth inside the Earth due to the weight of the overlying layers of rock pressing down. Temperature also increases with depth due to the Earth's internal heat. The rate at which pressure and temperature change varies depending on factors like the composition of the Earth's layers and geothermal gradients.
The pressure inside the cylinder of oxygen will increase as the temperature rises. This is because an increase in temperature causes the oxygen molecules to move faster and collide with the walls of the cylinder more frequently, resulting in a higher pressure.
On an atomic scale, atoms are constantly vibrating. This vibration along with the electronic orbitals of the atom limit the minimum distance between two atoms. With increase in temperature the amplitude of this vibration increases. This leads to an increase in the minimum distance. This increase in the minimum distance manifests itself as an increase in the volume at a macroscopic scale.
When gas is added to a rigid container using a pump, the pressure inside the container will increase due to the increase in the number of gas molecules colliding with the container walls. The temperature inside the container may also increase slightly due to the compression of the gas. The volume of the gas in the container will remain constant since the container is rigid and unable to expand.
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.