Wiki User
β 8y agoThe mass always stays the same, but because gravity is 38% of Earth, weight is only 38 pounds for every 100 pounds on earth.
Wiki User
β 8y agoThe mass of an object remains the same regardless of its location. Mass is a measure of the amount of matter in an object, so it does not change when the object is moved from Earth to the Moon. However, the object's weight would change due to the difference in gravitational pull between Earth and the Moon.
If you moved 3 times further from the center of the Earth, your weight would decrease by a factor of 9. This is due to the inverse square law of gravity, which states that gravitational force decreases with the square of the distance.
The mass of an object stays the same no matter where it is, as it still has the same amount of matter in it (the definition of mass is the amount of matter in an object). However, the weight of an object changes based on the gravitational pull of the celestial body it is on. The equation W = m * g where W is the weight, m is the mass of the object, and g is the gravitational acceleration of the celestial body (which changes from body to body) shows that an object's weight would change with the planet's gravitational acceleration. For example, the gravitational acceleration is 9.8 m/s^2 on Earth, and the gravitational acceleration on Jupiter is about 25m/s^2. So let's work out the equations with a 100 kg mass. Earth: W=mg W=100kg*9.8m/s^2 W=98 kg/m/s^2 or 98 newtons Jupiter: W=mg W=100kg*25m/s^2 W=250 kg/m/s^2 or 250 newtons So, (250/98 = ~2.5) things weigh about 2.5 times more on Jupiter, but have the same mass.
Your weight would increase on Jupiter due to its stronger gravitational pull compared to Earth. However, your mass would remain the same regardless of your location in the universe, as mass is a measure of the amount of matter in an object and does not change with location.
Your mass would remain the same, because it is a measure of the amount of matter in your body. However, your weight on the moon would be about 1/6th of your weight on Earth due to the moon's weaker gravitational pull.
It would be heavier.
resistance force.
The object is moved and energy is transferred.
The object moved by a lever is called the load or the resistance. It is the weight or item that the lever is used to lift or move.
The object being moved in a lever is called the load, resistance, or weight. It is the object that the lever is being used to lift or move.
The weight of an object changes when it is moved from the equator to the poles due to the variation in gravitational force caused by the Earth's rotation. The force of gravity is slightly stronger at the poles compared to the equator, leading to a small change in weight.
The shadow's position changes relative to the light source and object. It will move and change in size depending on the direction and distance the object is moved.
The weight of an object being moved by a machine depends on the mass of the object and the acceleration due to gravity. The weight can be calculated using the formula: weight = mass x gravity.
No, the mass of an object remains the same regardless of its location. Mass is a measure of the amount of matter in an object, and it is constant regardless of the gravitational field it is in. However, the weight of an object will change because weight depends on the gravitational force acting on the object.
The weight of an object (i.e. the gravitational force exerted on the object by the planet/moon) can vary, according to Newton's law of universal gravitation: F = G * m1 * m2 / R^2
As the object is moved closer to a converging lens or mirror, the image distance decreases, and the image becomes larger and more magnified. When the object is moved away from the lens or mirror, the image is formed farther away, becomes smaller, and less magnified.
If you are moving at different altitude the gravity will changes and so the weght will changes