it increases
If you decrease a planet's orbital radius, its surface temperature will increase.
Pressure is force per area, so P = F/A where pressure is P, force is F and A is area. So Pressure is directly proportional to the force exerted on a surface. So increasing a force by a factor of 2, say, increases the pressure on the surface by 2 also.
it will increase (get hotter).
Pressure and temperature increase with depth beneath the surface of the Earth.
Reducing the volume that a gas occupies will increase the pressure because it reduces the surface area that the gas has to impact against. Likewise increasing the temperature will increase pressure by increasing the kinetic energy of the gas molecules.
As the balloon rises through the troposphere, the instrument will generally show a decrease in temperature and pressure with increasing altitude. The decrease in pressure will be more pronounced, leading to a drop in atmospheric density.
Pressure can increase due to an increase in the force exerted on a surface or a decrease in the surface area over which the force is distributed. This is described by the equation pressure = force/area.
Air density and pressure increase nearer the surface
Both temperature and pressure increase with depth.
As depth beneath the Earth's surface increases, both temperature and pressure increase. This is due to the weight of the overlying rock and the Earth's internal heat. The increase in pressure and temperature with depth is known as the geothermal gradient.
Evaporation is affected by factors such as temperature, humidity, surface area, and air movement. Higher temperatures and lower humidity levels can increase the rate of evaporation, as can increased surface area and higher wind speeds that help to disperse the water vapor molecules.
To lower the temperature at which evaporation takes place, you can decrease the pressure or increase the surface area of the liquid. This allows the liquid molecules to escape into the air more easily, leading to evaporation at a lower temperature.