150/57 = 2.63
Note:
The ratio of Earth weight to Neptune weight is not 57, and it's not 0.57 or 5.7 either.
It is about 0.87 (rounded).
Your 150-lb (on Earth) person would weigh about 172 pounds on Neptune.
There is no gravitational field due to the earth at its centre. So you are in free orbit. A weigh scale wouldn't register anything, but you could detect your mass by inertial experiments involving accelerations.
nothing, you would be dead, the earth's core is half the temperature of the sun, plus you would be burnt alive before you got there. Theoretically, though, you would weigh 0 because the mass of the Earth is pulling you equally in all directions.
the ratio of an object's on Earth to its weight on Neptune is 5:7
A 150 pound person on Earth would weigh 136 pounds on Venus. The gravitational pull of Venus is slightly less than that of Earth.
To calculate that, you take your weight on earth, divide it by 5, and multiply that times 7. answer 210 pounds
You would be 168 lbs.
the answer is 210 lbs
171lbs. (150 x 1.14)
62 pounds
The acceleration affects the weight of the person and object
You would weigh 119 pounds on Neptune if you were 100 pounds on Earth. However, Neptune is a gas planet consisting of a methane atmosphere so you can't actually stand on it.
Weigh a container of some sort, place the water in the container and then subtract the weight of the container from the total weight of the container and water. For example: my glass bowl weighs 1 pound. When I weigh the bowl filled with water, it is 3 pounds. 3 pounds minus the 1 pound makes 2 pounds. The water weighs 2 pounds.
Centimeters are units of distance/length, not of weight.
The person would be about 89 kilograms in weight. The person would still have a mass of 100 kilograms, of course. The strict scientific unit of weight is the "newton" because that is the unit of force and weight exerts a force. The 100 kg person weighs 890 newtons on Venus. However, normally we say "kilograms" or "kilograms weight", as long as we are clear that weight and mass are different.
no because buoyant means how much can an object float and weight means how much it weighs.
twenty-four
No. The weight of any object on the Moon would be about 1/6 the weight on Earth.
On Neptune you would weight about 14% more than you weigh on Earth.
Yes, on the Moon everything weighs 1/6th the weight on Earth.
This depends on how much the person weighs and how much the horse weighs. The horse should be able to carry one third of its body weight.
The acceleration affects the weight of the person and object
No. The heaviest weight ever recorded for a person was about 1400 pounds.
Multiply the weight in pounds by 0.453 to get kilograms.
100
I assume you mean "What happens if the weight of an object is greater than the weight of the water it displaces." If so, the answer is simple, it sinks. If an objects weighs less than the weight of the water it displaces, it floats.
You would weigh 119 pounds on Neptune if you were 100 pounds on Earth. However, Neptune is a gas planet consisting of a methane atmosphere so you can't actually stand on it.