Cloud cover can reflect incoming solar radiation back into space, reducing the amount of energy that reaches the Earth's surface. This can lead to cooler temperatures. However, clouds can also trap heat emitted by the Earth, leading to warmer temperatures. Overall, the effect of clouds on the amount of incoming solar energy reaching the Earth's surface can vary depending on factors such as cloud type, altitude, and thickness.
Desert climates typically have more extreme temperatures, with very hot days and very cold nights due to low humidity and lack of cloud cover. Additionally, polar climates also experience extreme temperature fluctuations, with frigid cold temperatures in winter and milder temperatures in summer due to the tilt of the Earth's axis.
No, It was created by God Almighty. When the solar system was originally formed out of an interstellar gas cloud, the planet Earth was originally a very hot, melted object, as a result of the energy of all the collisions of the smaller objects from which the Earth was formed. Most of the Earth remains very hot to this day. Only the thin outer crust has cooled off and solidified. The crust floats on a mantle of liquid rock.
The Earth was never a star, it was always a planet from the earliest moment that it formed out of smaller objects when the solar system first coalesced out of a giant cloud of interstellar gas. Planets are not like starts. Stars are much larger and are made from very hot gas; planets are much smaller and colder, and in the case of the Earth, are made mostly of solid or liquid substances, rather than gas (although the Earth does, of course, have an atmosphere made of gas).
The motion of materials caused by high temperatures in Earth's mantle results in convection currents. These currents drive the movement of tectonic plates on the Earth's surface, leading to geological phenomena such as earthquakes, volcanic activity, and the formation of mountain ranges. The heat from the mantle affects the lithosphere, influencing the dynamics of plate tectonics and the overall geology of the planet.
The factors influencing subsurface temperatures in the Earth's crust include geothermal heat flow, depth of burial, thermal conductivity of rocks, and tectonic activity.
Cloud cover can have a cooling effect by reflecting sunlight back into space (albedo effect) or a warming effect by trapping heat radiated by the Earth (greenhouse effect). The net impact on temperature depends on the type of clouds, their altitude, and the time of day. Overall, clouds play a crucial role in regulating the Earth's energy balance and influencing surface temperatures.
Cloud cover can reflect incoming solar radiation back into space, reducing the amount of energy that reaches the Earth's surface. This can lead to cooler temperatures. However, clouds can also trap heat emitted by the Earth, leading to warmer temperatures. Overall, the effect of clouds on the amount of incoming solar energy reaching the Earth's surface can vary depending on factors such as cloud type, altitude, and thickness.
Interstellar gas and debris.
Cloud cover can block sunlight from reaching the Earth's surface, reducing the amount of solar radiation that penetrates through to warm the surface. This can lead to lower temperatures in areas with persistent cloud cover. However, clouds can also act as a blanket, trapping heat and leading to warmer nighttime temperatures.
During the day, the earth is heated by the sun. If skies are clear, more heat reaches the earth's surface. However, if skies are cloudy, some of the sun's rays are reflected off the cloud droplets back into space. Therefore, less of the sun's energy is able to reach the earth's surface, which causes the earth to heat up more slowly. This leads to cooler temperatures.
The volcanic eruptions affect the temperature due to the ash cloud it injects into the atmosphere. The ash cloud insulates the earth, preventing some of the warm of the sun from being absorb by the earth. This results in cooler temperatures in the affected areas.
The Earth's shape affects global temperatures and wind patterns by influencing the distribution of sunlight. The curved surface of the Earth causes uneven heating of the planet, leading to differences in temperature between regions. This temperature variation drives the movement of air masses around the globe, influencing wind patterns and weather systems.
Its the latitude that affects the temperatures on the earth
The sulfur cloud that comes out after a volcanic eruption covers the earth's atmosphere, stops much sunlight from reaching Earth, and makes the Earth colder by 2 to 3 degrees Celsius.
The sulfur cloud that comes out after a volcanic eruption covers the earth's atmosphere, stops much sunlight from reaching Earth, and makes the Earth colder by 2 to 3 degrees Celsius.
the ash cloud covers the atmosphere and temperatures can drop in the area. the lava devastates everything in the area, causing later erosion to the soil.