The convection cells radiate heat.
The convection cells radiate heat.
The convection cells radiate heat.
The convection cells radiate heat.
The convection cells radiate heat.
The convection cells radiate heat.
The convection cells radiate heat.
The presence of methane, ammonia, and water vapor in Neptune's atmosphere help create the belts of clouds. These compounds rise from the interior of Neptune due to convection currents caused by heat and pressure in the planet's interior, creating the distinctive cloud patterns seen in the atmosphere.
Pressure belts are formed in the atmosphere due to the unequal heating of the Earth's surface. The sun's rays are more concentrated near the equator and spread out towards the poles, which creates temperature differences and leads to variations in air pressure. This results in the formation of different pressure belts like the equatorial low-pressure belt and the subtropical high-pressure belts.
earths atmosphere was formed as through the rotating mass of clouds and gases. there, the solid particles settled in the atmosphere and the lighter parts including gases rotated and formed the earths atmosphere. different regions exp. diff. type of pressure belts. this can be as though becoz of gravity. polar regions have high gravityand so exp. high pressue belts and vice versa.
The convection cells radiate heat.
Pressure belts form in the atmosphere due to differences in solar heating at different latitudes. Warm air rises at the equator, creating a low-pressure area, while cooler air sinks at the poles, creating high-pressure areas. This creates a system of alternating high and low pressure belts that help drive global wind patterns.
High pressure belts form as a result of air cooling and descending at specific latitudes in the Earth's atmosphere. As the air sinks, it becomes warmer and denser, creating an area of high pressure at the surface. These high pressure belts are typically found around 30 degrees north and south of the equator, known as the subtropical highs.