74 kg of mass weighs 120.1 newtons (27 pounds) on the moon, and the same 74 kg weighs 726 newtons (163 pounds) on Earth.
Simple. Weigh it
You would weigh nothing. You still have mass, but mass is different than weight. Ever wonder why they say you are "weightless" in space? It's because of that: you would weigh nothing in space.
No, an object's weight is determined by the gravitational pull of the planet it is on, not its distance from the sun. Objects will weigh the same on a planet close to the sun as they would on a planet farther away.
Your weight would change on Mars because gravity is weaker there compared to Earth. Weight is the force of gravity acting on an object, while mass is the amount of matter in an object and remains the same regardless of location. So, your mass would stay the same on Mars, but you would weigh less due to the weaker gravitational pull.
A bigger object typically weighs more because it has a greater amount of mass. Weight is the force of gravity acting on an object, and mass is the amount of matter it contains. Therefore, larger objects with more mass experience a stronger gravitational force and thus weigh more.
Simple. Weigh it
it is equal to the mass of the original object
-- Measure the force of attraction between the object and the earth. ("WEIGH" the object.)-- Divide the force by the acceleration of gravity.-- The answer is the mass of the object.
Objects under water seem to weigh less but they have the same mass as they would out of water.
Your body-mass index would be 30, so definitely yes unless you are a very heavily muscled person. It needs to be 18-24 for people with normal builds.
The units used for weight and mass are the same but there is a subtle difference in the meaning.Take for instance an amount of substance that has a mass of 1kg. On earth it would weigh 1 kg. Taking the same object into space it would weigh nothing but would still have a mass of 1 kg. This is called inertial mass. Taking the object to the moon and it would still have a mass of 1 kg but would weigh about 1/6 of a kg. Weight is dependant on the gravitational field where the object is. This is a simplified explanation
An easy way to do that is to weigh the object. In principle, the mass can be derived from the weight.
To find the mass of an irregular object using a common balance, you can first weigh a known object with a regular shape to calibrate the balance. Then, weigh the irregular object. Subtract the mass of the known object from the total mass to determine the mass of the irregular object.
wow what a question!! well i don't know but hot air rises so cold would probably weigh more..
Gravity has no effect on the mass of an object. However, an object's weight is the measurement of gravitational force on the object. The gravitational force on the moon for example is ~ 1/6 of that on Earth. A 300 kg object would weigh 3000N (Newtons) on the Earth but only weigh 500 N on the Moon but its mass would still be 300 kg on the Moon and on the Earth.
The units used for weight and mass are the same but there is a subtle difference in the meaning. Take for instance an amount of substance that has a mass of 1kg. On earth it would weigh 1 kg. Taking the same object into space it would weigh nothing but would still have a mass of 1 kg. This is called inertial mass. Taking the object to the moon and it would still have a mass of 1 kg but would weigh about 1/6 of a kg. Weight is dependant on the gravitational field where the object is. This is a simplified explanation.
on a scale