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What would be effect on mass and weight of a body if it is taken from earth surface to the surface of moon?
The mass of the body remains the same because mass is a measure of the amount of matter in an object, which does not change. However, the weight of the body will be different on the moon compared to Earth, as weight depends on the gravitational pull on an object. The gravitational force on the moon is around 1/6th of that on Earth, so the body will weigh approximately 1/6th of its weight on Earth when on the moon.
Which measurement changes when an object is taken from the earth to the moon?
Weight would change when an object is taken from Earth to the Moon due to the difference in gravitational pull between the two celestial bodies. It would weigh less on the Moon compared to Earth.
How does the weight of an object change when it is taken to the moon?
I would weigh 30lbs 5.9oz.Well your weight on earth is given by the equation weight = mass x gravity. The different gravity constant on the moon is what changes your weight, but your mass remains the same. The weight formula on the moon would be the same only with the different gravity constant. So putting these equations together we get:weight on moon = mass x gravity constant of moonweight on moon = (weight on earth/gravity constant of earth) x gravity constant of moonThen we plug in the gravity constants and get the final conversion equation:weight on moon = (weight on earth/ 9.8) x 1.6Note: The constants are given with the units m/s2 but because they cancel each other out, you can enter your weight with any units and solve for your weight on the moon in the same units.Hope this helps!Well actually you have no weight on the Moon you just are weightless because there is no gravity...About 1/6 of your weight on the Earth. The weight on the Moon is about 1.6 Newton/kilogram.nope, weight is relative to gravitational force. The astronaut would have the same mass though.
A rock is taken from the surface of the moon and brought to earth what is different about this rock on earth?
The main difference is that the rock's appearance may change due to exposure to Earth's atmosphere, causing potential oxidation or weathering. Additionally, the rock's composition could be altered as it interacts with Earth's environment, leading to potential chemical reactions that could affect its structure. Lastly, the rock's weight will be different on Earth due to the moon's lower gravitational pull compared to Earth.
How would the weight of an object chnage if it is initially weighed in delhi and then taken to the pole?
The weight of an object would not change when taken from Delhi to the pole. Weight is the force of gravity acting on an object, and this force remains constant regardless of location. The object's mass would remain the same, but its weight may be perceived differently due to variations in gravity strength at different locations.
What would be the effect on the mass and the weight of an object if the object were taken to the gravity of earth?
dnt trip
What would be effect on mass and weight of a body if it is taken from earth surface to the surface of moon?
The mass of the body remains the same because mass is a measure of the amount of matter in an object, which does not change. However, the weight of the body will be different on the moon compared to Earth, as weight depends on the gravitational pull on an object. The gravitational force on the moon is around 1/6th of that on Earth, so the body will weigh approximately 1/6th of its weight on Earth when on the moon.
What would be the effect on the mass and the weight of an object if the object taken to a planet with twice the gravity on earth?
the mass would stay the same no matter where you are and the weight is the force of gravity on an object, so depending on the gravity your weight would change
What would be the effect on the mass of the weight of an object if the object were taken to a planet with twice the gravity of earth?
the mass would stay the same no matter where you are and the weight is the force of gravity on an object, so depending on the gravity your weight would change
How would the weight of the body vary as it is taken from the earth to the moon?
1/6 that of the earth
What would be the effect on the mass and the weight of an object if the object were taken to at planet with twice the gravity of earth?
Nothing would happen to mass, but as weight is technically a force due to gravity, based on mass, the weight would be doubled, but again mass would remain the same.
What percentage of earth is water?
It is estimated that up to 70% of the 'surface' of the earth is taken up with water. The earth's water is reckoned to weigh about 1.460 petatonnes (Pt) (1021kilograms). The weight of the earth (including its water) is reckoned to be 5973.6 petatonnes
Is the earth getting lighter from the oil that is removed?
No, the Earth's weight remains constant because when humans extract oil from the ground, it is mostly used for energy and other purposes on the surface rather than being taken off the planet. The total mass of the Earth is so massive that the extraction of oil does not significantly impact its overall weight.
Which measurement changes when an object is taken from the earth to the moon?
Weight would change when an object is taken from Earth to the Moon due to the difference in gravitational pull between the two celestial bodies. It would weigh less on the Moon compared to Earth.
What is the force of gravitity at the surface of your planet?
The acceleration of gravity (lower case g) on Earth's surface is often taken to be 9.8 m/s^2, so the force exerted can be determined by multiplying the acceleration by the mass in question. This manifests in the weight of the object.
What you see at the earth from the surface of the moon?
The photos of Earth taken from the Moon show oceans and clouds. Nothing else is distinguishable.
What would be the effect on the mass and the weight of an object if the object were taken to to a planet with twice the gravity of earth?
The mass of the object would remain the same, as it represents the amount of matter within the object. However, the weight of the object would double on the planet with twice the gravity of Earth because weight depends on the gravitational pull experienced by the object.
