It would depend an the composition of the planet.
No planet could survive so close to the Sun. It would be vaporized. Also, the Sun's corona extends more than a million miles into space; the tenuous plasma would slow the planet down and cause it to fall into the Sun fairly soon.
because ...when you look at the sun it hurts your eyes....and it would be harder to see the planet!
The average distance of Venus from the sun is 67,237,910 miles or 108,208,930 km.Since Venus travels in an elliptical orbit around the sun, its distance from the sun varies throughout its year from 66,782,000 miles (107,476,000 km) to 67,693,000 miles (108,942,000 km). On average, it's about 108.2 million kilometers.The distance from the planet Venus to the sun is 0.7256 astronomical miles. This is equal in distance to 67.45 million miles.An astronomical unit ( AU ) is 1.5 X 108 kilometers. So....Venus is, since the elliptical is almost nonexistent, 0.72 AU from the sun.0.72 AU * 1.5 X 108 kilometers= 1.08 X 108 kilometersThe average distance of Venus from the Sun is about 0.723 AU. This is equivalent to about 108.2 million kilometers.
Frozen to death.
There are 1.609344 kilometres in one mile. Therefore, rounded to two decimal places, 1600000/1.609344 = 994,193.91 miles. Therefore, 1600000 kilometres is approximately equal to look slightly rosier.
No planet could survive so close to the Sun. It would be vaporized. Also, the Sun's corona extends more than a million miles into space; the tenuous plasma would slow the planet down and cause it to fall into the Sun fairly soon.
As a number it is: 2,100,000 miles
miles mannarino is the coolest person on the planet. he has his own channel on youtube. its called timmy1time!look him up he is worth it!
what equipment would you need to go look for a new planet
Go up in a balloon and look down, or up a mountain and look across. Even a tall building will do.Or of course, you could look at an object a quarter of a million miles away (the moon), 90+ million miles (the sun - DO NOT LOOK DIRECTLY!), or several trillion miles to brighter stars.
It would be blindingly bright. Resistance from moving through an atmosphere at orbital speeds creates super heated plasma. In this case you would basically have a planet-sized meteor. Considering that a meteor the size of an apartment building appeared brighter than the sun to those twenty miles below it, a whole planet would be unimaginably bright. The amount of heat radiated from such an event would incinerate anyone on the surface below.
At the bottom of the planet it was one large landmass that was breaking apart
it would look awsome put it
1,000,000
because ...when you look at the sun it hurts your eyes....and it would be harder to see the planet!
Quite amazing: the stack of 60 million 1-dollar bills would be 4.07 miles (6.55km) high! Each US banknote measures 0.11mm thick when new.
Earthquakes go an astounding amount of miles per hour. Think what your house would look like if you had a million fans blowing in your house x1,000,000.