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Is weight an example of a physical change?
Weight is not an example of a physical change, but rather a physical property. A physical change involves altering the form or appearance of a substance without changing its chemical composition. Changing the weight of an object would involve chemical reactions or interactions, thus falling outside the definition of a physical change.
What is your weight on earth if your weight on the moon is 36kg?
There is gravity on the moon! The gravity on the Moon is 1/6th that of what is observed on Earth. An object with a weight of 36 kg on Earth would weigh 1/6th that on the Moon. 1/6th of 36kg is, 6 kg. An object with a MASS of 36 kg on Earth would have the same 36 kg MASS on the moon. Mass is the amount of matter that makes up an object, whereas WEIGHT is the measurement of the force of gravity on that MASS. This is why your weight will change when visiting other planets, but your mass stays constant plant to planet!
Why your weight would change if you went to the moon but your mass would not?
Your weight would change on the moon because gravity is weaker there compared to Earth, so you would feel lighter. However, your mass would remain the same because it is a measure of the amount of matter in your body, which does not change.
Does the weight of a falling object change?
No, the weight of a falling object stays constant - assuming it doesn't fall from a large height. At high altitudes, gravity will be slightly less, so the weight will also be less. For most practical problems this can be ignored - you would have to go up hundreds of kilometers to have a noticeable difference.
How would the velocity of an object change when the speed stays the same?
Velocity is a vector quantity that includes both speed and direction. If an object's speed stays the same but its direction changes, its velocity will change. This is because velocity takes into account the speed of an object as well as its direction of motion.
Does your weight stay the same no matter where you go like the moon?
Your weight would change depending on the gravitational pull of the celestial body you are on. For example, your weight on the Moon would be about 1/6th of what it is on Earth due to the Moon's weaker gravity.
Would your weight and mass change on the moon?
So if you take your weight then divide it by 6.13 that is your on the moon and your mass stays the same.
Would a person mass or weight change if that person left the earth and went to the moon?
your mass stays the same. yoir WIEGHT changes
Is weight an example of a physical change?
Weight is not an example of a physical change, but rather a physical property. A physical change involves altering the form or appearance of a substance without changing its chemical composition. Changing the weight of an object would involve chemical reactions or interactions, thus falling outside the definition of a physical change.
Why would you wigh differently on different planets?
Different mass means different gravity meaning your weight would change. For example divide your weight by six-that's what you would weigh on the Moon.
What property would change if a man were to stand on the moon of earth?
His weight would be approx 1/6 of his weight on earth.
If a bowling ball were moved from earth to the moon how would its weight and mass change?
The mass of the bowling ball would remain the same when moved from Earth to the Moon, as mass is a measure of the amount of matter in an object and does not change with location. However, its weight would decrease significantly on the Moon due to the lower gravitational pull, which is about one-sixth that of Earth's. Therefore, while the bowling ball's mass stays constant, its weight would be much less on the Moon.
Explain why the weight of an object is not the same on different points on the earth?
Weight is a measurement of the gravitational attraction of the earth to the mass of a body. Since the mass stays the same wherever the body is, the gravitational attraction must change from location to location. A body weighing 120 grams at sea level, would weigh slightly less as it was moved away from the center of gravity of the earth, for example, up a mountain. It would weigh slightly more the further below sea level it was moved. Suspending (or immersing) a body in water would also change its apparent weight, though this would be a reaction to the bodies buoyancy rather than a change in gravitational attraction. - wjs1632 -
What is your weight on earth if your weight on the moon is 36kg?
There is gravity on the moon! The gravity on the Moon is 1/6th that of what is observed on Earth. An object with a weight of 36 kg on Earth would weigh 1/6th that on the Moon. 1/6th of 36kg is, 6 kg. An object with a MASS of 36 kg on Earth would have the same 36 kg MASS on the moon. Mass is the amount of matter that makes up an object, whereas WEIGHT is the measurement of the force of gravity on that MASS. This is why your weight will change when visiting other planets, but your mass stays constant plant to planet!
What would happen if the variables in an experiment we're not in identified?
If it was not identified then you would not know what to change or what stays the same.
How will an astronauts weight and mass change on the moon?
An astronaut's mass remains constant regardless of location, as mass is a measure of the amount of matter in an object. However, their weight will change on the Moon due to its weaker gravitational pull, which is about one-sixth that of Earth's. This means the astronaut will weigh significantly less on the Moon, even though their mass stays the same. For example, if an astronaut weighs 180 pounds on Earth, they would weigh only about 30 pounds on the Moon.
Does your mass change on the moon?
No, your mass does not change on the Moon; it remains the same as on Earth. However, your weight would be significantly less on the Moon due to its weaker gravitational pull, which is about one-sixth that of Earth's. This difference in weight can create the sensation of being lighter, but the actual mass of your body stays constant regardless of the celestial body you are on.
