If you weigh 1,001 lbs on Earth you would weigh 378.3 lbs on Mercury.
Well, the acceleration an object experiences under gravity is the same! This much is not dependent on the mass. So both balls will gain the same amount of speed every second while falling towards the ground. They will fall at the same speed, as long as we assume there is no wind resistance, or external forces causing a noticeable acceleration.
rock much like our own planet
Being on Mercury will change your weight because you would be pulled down with a smaller force. You would weigh on Mercury 0.38 time your weight on Earth.
12 pounds is 192 ounces. (pounds x 16 = ounces)
Ea. lb is 453.59237 grams. Just multiply.
Ea. lb is 453.59237 grams. Just multiply.
um idon't know a lot
F=ma F=7kg*9.81m/s**2 F=68.67N
a bowling ball is much heavier than a astronaut under the action of gravity
It is much more than a pound. There are different weights, but they start at 6 pounds.
On Mercury, you'd weigh 4.62 pounds.
259N is the person weigh on mercury.
6x bigger
if you weigh a 100 lbs, on Mercury you will weigh 38 lbs. just multiply your answer by 0.38.
if you weigh a 100 lbs, on mercury you will weigh 38 lbs. just multiply your answer by 0.38.
A soccer ball is hollow and filled with air, which has little density. A bowling ball is solid material of a much greater density. * Because bowling balls have a standard size, about 21.8 cm in diameter, bowling balls weighing less than 5.4 kg (12 lb) will float in water.