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An object of 1.0 g per ml will remain suspended in water because the density of water is 1.0 anything below 1.0 will float and anything above 1.0 will sink. There fore, 1.0 will remain suspended because that is the buoyant point.
it would remain motionless.
As an object sinks in a fluid the buoyant force on it would remain the same.
Due to gravity, an object would weigh 3 times more on Earth than on Mercury, so the answer would be 75lbs
That depends entirely on the volume of the object
An object of 1.0 g per ml will remain suspended in water because the density of water is 1.0 anything below 1.0 will float and anything above 1.0 will sink. There fore, 1.0 will remain suspended because that is the buoyant point.
It would sink. The density of tap water is approximately 1g per ml. Anything with a greater density will sink.
you should know
Float
Float
The object would behave as a part of fluid and it will remain where it is kept.
Well from simple math i would estimate around 81 pounds on Venus.
it would remain motionless.
Any object weighs more on the moon than it does on an asteroid or comet, but less than it weighs on earth ... only about 16% of its earthly weight.
An object that weighs 800.1 n on earth would weigh 130.6 n on the moon.