There is more atmospheric pressure in the Sahara Desert. The number of air molecules around us decrease as we go higher into the atmosphere, which also causes the air pressure to decrease. Since the Sahara Desert is closer to sea level than Mount Everest is, there are more air molecules and more pressure there.
Mount Everest is higher than Mount KeaMount Everest is the tallest mountain in the world.
Mount Everest belongs to the Himalaya mountains
Mount Everest is in the Himalayan (Himalayas) mountain range.
everest birds
Mount Everest is located in the Himalayan mountain range.
The top of Mount Everest. The Sahara would be very hot with a lower air quality than that of a less hot place, but the top of Mount Everest would simply have less breathable oxygen in the air.
Some are: Ulura, Mount Everest, Northern Lights, Amazon Rainforest, Sahara Desert, Lunar Crater and Niagara falls.
No a desert is a barren flat land.
it is higher up on Mount Everest so it has less pressure than at sea level
Mount Sinai, also known as Mount Horeb, is a mountain in the Sinai Peninsula of Egypt that is a possible location of the biblical Mount Sinai. It is part of the Sinai Desert which is part of the larger Sahara.
The summit of Mount Everest has low pressure. At high altitudes, such as on Mount Everest there is less air above you. This means that the density and pressure of air decreases as altitude increases. Each intake of air on Mount Everest has only one-third of the gas molecules-including oxygen-that would be present at sea level.
low pressure region
low pressure
North America, South America, Africa, Asia, and Australia have land in the tropics.
At high altitudes, such as on Mount Everest there is less air above you. This means that the density and pressure of air decreases as altitude increases. Each intake of air on Mount Everest has only one-third of the gas molecules-including oxygen-that would be present at sea level.
The air pressure at the top of Mount Everest is low pressure. At high altitudes, such as on Mount Everest there is less air above you. This means that the density and pressure of air decreases as altitude increases. Each intake of air on Mount Everest has only one-third of the gas molecules-including oxygen-that would be present at sea level.
Mount Everest