That can't happen. But let's say the scenario was possible. Earth will be so hot, it would be a superheated ball of gas. There is no way a planet's surface is that hot. even the surface of the hottest star is much less than that. Only on the inside can stars be that hot. Life on Earth will be vaporized by the enormously high temperature.
There could be change in the content of water. It will affect the level of water in the water bodies.
asthenosphere
yes. the grand canon, which developed relatively quickly, took about 6 million years, having been eroded, principally, by the waters of the Colorado river. However, it reached nearly to its present depth by about 1.2 million years ago. The sun, Wind, and rain, of course, have played their parts as well.
The length of the day
If someone were to land on Venus, they would experience extreme conditions, including scorching temperatures of around 870 degrees Fahrenheit (465 degrees Celsius), crushing atmospheric pressure around 92 times that of Earth, and sulfuric acid rain. It is unlikely that a human would survive for long on the surface of Venus without advanced protection.
yes
they just happen earthquakes are caused from the plates under earths surface moving
A few million degrees - up to a billion or so, in a supernova.A few million degrees - up to a billion or so, in a supernova.A few million degrees - up to a billion or so, in a supernova.A few million degrees - up to a billion or so, in a supernova.
The Earths surface would be much colder than it is.
Earth's Gravity would pull it straight down to earths surface.
If the fault is responsible for the earthquake, there will be movement (displacement) along the fault.
There could be change in the content of water. It will affect the level of water in the water bodies.
It would explode. NOTHING is "billions of degrees hot"; at temperatures of "only" a few hundred million degrees, the very atoms themselves would disintegrate into pure energy.
Crisis on Infinite Earths happened in 1919-04.
The ice cube wouldn't even scratch the sun. It would melt as it drew closer. The sun=15 million degrees Celsius. Or about 27 million degrees Fahrenheit. The melting point of ice is 32-33 degrees Fahrenheit.
asthenosphere
The radiation that Earth receives from the sun can be absorbed by the atmosphere, reflected back into space, or absorbed by the Earth's surface and converted into heat energy.