Surface processes on terrestrial planets can be influenced by erosion, weathering, volcanic activity, impact cratering, and tectonic activity. These processes can shape and modify the landscape over time, forming features such as mountains, valleys, canyons, and volcanoes. Erosion and weathering break down rocks and transport materials, while volcanic activity adds new material to the surface, leading to a continuously changing planetary landscape.
The four processes that change the surface of terrestrial planets - impact cratering, volcanism, tectonism, and erosion - can also affect the surfaces of asteroids. Asteroids can experience impacts that create craters, volcanic activity that reshapes their surfaces, tectonic movements that alter their terrain, and erosion processes that break down their surface materials. However, the intensity and frequency of these processes may vary due to the smaller size and different compositions of asteroids compared to terrestrial planets.
Planets and stars do not have a direct impact on Earth's weather. Weather on Earth is primarily influenced by factors such as the Sun, atmosphere, ocean currents, and land formations. The Sun provides the energy necessary to drive weather patterns on Earth through processes like evaporation and convection.
The effect is very small.
The sun may not experience a nova explosion. If it does, then it will affect all planets in the solar system.
Dark matt surfaces absorb radiated heat much more easily than light-coloured shiny surfaces.
The four processes that change the surface of terrestrial planets - impact cratering, volcanism, tectonism, and erosion - can also affect the surfaces of asteroids. Asteroids can experience impacts that create craters, volcanic activity that reshapes their surfaces, tectonic movements that alter their terrain, and erosion processes that break down their surface materials. However, the intensity and frequency of these processes may vary due to the smaller size and different compositions of asteroids compared to terrestrial planets.
screw this........ wth is terestrial surface???? Sorry, what he means is it is kind of like craters or something like that..... Think about the moon... It has craters/terrestrial surfaces.
The word terrestrial means "of the earth" or "having to do with earth". There are terrestrial thunderstormd (on earth) but there are no lunar thunderstorms (on the moon).
the affect is 90 between two planets
Force pushing two surfaces together
Two factors that affect a planets revolution are distance from the sun and size.
Factors affecting kinetic friction include the nature of the surfaces in contact, the roughness of the surfaces, the normal force pressing the surfaces together, and the presence of any lubricants or contaminants on the surfaces. Additionally, the temperature of the surfaces can affect kinetic friction.
mass and velocity
no it does not
You mean places not planets
How processes load and the number of running processes affect system performance.
There is no necessary connection between mass and distance. The mass of a planet does not affect its orbital speed, for example. However the "giant planets" are further from the Sun than the less massive "terrestrial planets". The outer (more massive planets) contain a lot of gases. So, they would surely lose a lot of their mass if they were nearer the Sun. (In fact, we have found planets called "hot Jupiters" orbiting other stars. These are Jupiter type planets, but they orbit very close to their star.)