You are a mad scientist who wants to create a parallel universe with a gravitationnal constant G=0. In order to have planetary motion, you give a positive charge to the central star and a negative charge to the planets. If the sun has a charge of 1180 exaCoulombs (10^18 C), what should be the charge of earth (absolute value) so that it still has a period of 365 days? Give your answer in teraCoulombs (10^12 C).Use the following constants :
ϵ0=8.854×10^−12 C^2/(N⋅m^2)
MSun=1.988×10^30kg
MEarth=5.962×10^24kg
DSun-Earth=1.496×10^11m
Note : Of course you can assume that you are able to create a mysterious force that will allow the stars and planet to stick together despite zero gravity!
You are a mad scientist who wants to create a parallel universe with a gravitationnal constant...
You are a mad scientist who wants to create a parallel universe with a gravitationnal constant G-0. In order to have planetary motion, you give a positive charge to the central star and a negative charge to the planets. If the sun has a charge of 9,150 exaCoulombs (10 18 C), what should be the charge of earth (absolute value) so that it still has a period of 365 days? Give your answer in teraCoulombs (10^12 C). Use the following...
You are a mad scientist who wants to create a parallel universe with a gravitationnal constant G-0. In order to have planetary motion, you give a positive charge to the central star and a negative charge to the planets. If the sun has a charge of 7,580 exaCoulombs (10 18 C), what should be the charge of earth (absolute value) so that it still has a period of 365 days? Give your answer in teraCoulombs (1012 C). Use the following...
You are a mad scientist who wants to create a parallel universe with a gravitationnal constant G-0. In order to have planetary motion, you give a positive charge to the central star and a negative charge to the planets. If the sun has a charge of 8,470 exaCoulombs (1018 C), what should be the charge of earth (absolute value) so that it still has a period of 365 days? Give your answer in teraCoulombs (10 12 C). Use the following...
You are a mad scientist who wants to create a parallel universe with a gravitationnal constant G-0. In order to have planetary motion, you give a positive charge to the central star and a negative charge to the planets. If the sun has a charge of 2,210 exaCoulombs (10 18 C), what should be the charge of earth (absolute value) so that it still has a period of 365 days? Give your answer in teraCoulombs (10 12 C) Use the...