Titan
Atmospheric pressure refers to the force exerted by the weight of the air above a certain point on Earth's surface. It is responsible for driving weather patterns and can vary based on altitude and weather conditions.
At the surface of the Earth, about 99% of the atmosphere's total mass is located below 32 km. This is where most of the atmospheric pressure is concentrated. Therefore, the greatest fraction of atmospheric pressure is present at the Earth's surface.
The troposphere is the atmospheric zone that covers approximately 70% of the Earth's surface. It is where most weather phenomena occur and where the majority of Earth's atmospheric gases are found.
The correct order of Earth's atmospheric layers starting at the surface is the troposphere, stratosphere, mesosphere, thermosphere, and exosphere.
No, isobars represent areas of equal atmospheric pressure, so two isobars should never intersect on a surface weather map. If two isobars were to intersect, it would imply that the same location on the map has two different atmospheric pressure values simultaneously, which is not physically possible.
Venus has atmospheric pressures at its surface that are roughly comparable to those at Earth's surface, around 92 times the pressure we experience here on Earth. This high pressure is due to Venus' thick atmosphere composed mostly of carbon dioxide.
The planet with an atmospheric pressure similar to that 30 km above Earth's surface is Venus. At an altitude of about 50 km above Venus, the atmospheric pressure is comparable to Earth's surface pressure.
Atmospheric pressure refers to the force exerted by the weight of the air above a certain point on Earth's surface. It is responsible for driving weather patterns and can vary based on altitude and weather conditions.
At the surface of the Earth, about 99% of the atmosphere's total mass is located below 32 km. This is where most of the atmospheric pressure is concentrated. Therefore, the greatest fraction of atmospheric pressure is present at the Earth's surface.
You can expect to find high surface pressures at the poles because they have all of the cold air sinking down to the surface due to the low intensity of insolation on the poles.
The troposphere is the atmospheric zone that covers approximately 70% of the Earth's surface. It is where most weather phenomena occur and where the majority of Earth's atmospheric gases are found.
i have no clue
It decreases as you move away from the earth surface
The correct order of Earth's atmospheric layers starting at the surface is the troposphere, stratosphere, mesosphere, thermosphere, and exosphere.
No, isobars represent areas of equal atmospheric pressure, so two isobars should never intersect on a surface weather map. If two isobars were to intersect, it would imply that the same location on the map has two different atmospheric pressure values simultaneously, which is not physically possible.
Since Earth and Venus are roughly the same size AND have roughly the same mass, they have roughly the same gravity. The acceleration of gravity on the surface of Venus is 90.3% of what it is on Earth's surface.
Atmospheric pressure decreases as you move away from the surface of the Earth. This is because the weight of the air above you decreases with higher altitudes, resulting in lower atmospheric pressure.