Questions: On Earth and the Moon, the mass of an object would be equal different but the weight would be different because of differences in gravity. Since the force of gravity on Earth is higher, you would expect to weigh more on Earth and less on the Moon.

On Earth and the Moon, the mass of an object would be equal different but the weight would be different because of differences in gravity. Since the force of gravity on Earth is higher, you would expect to weigh more on Earth and less on the Moon.
Transcript text: On Earth and the Moon, the mass of an object would be $\square$ different but the weight would be $\square$ because of differences in $\square$ Since the force of gravity on Earth is higher, you would expect to weigh $\qquad$ on Earth and $\square$ on the Moon. more less gravity equal
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Solution

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Solution Steps

Step 1: Understanding Mass and Weight
  • Mass is a measure of the amount of matter in an object and remains constant regardless of location.
  • Weight is the force exerted by gravity on that mass and varies with the strength of the gravitational field.
Step 2: Analyzing the Differences on Earth and the Moon
  • On Earth and the Moon, the mass of an object would be the same because mass does not change with location.
  • The weight would be different because weight depends on the gravitational force, which varies between Earth and the Moon.
Step 3: Comparing Gravitational Forces
  • The gravitational force on Earth is stronger than on the Moon.
  • Therefore, you would expect to weigh more on Earth and less on the Moon due to the stronger gravitational pull on Earth.

Final Answer

On Earth and the Moon, the mass of an object would be \( \text{equal} \) different but the weight would be \( \text{different} \) because of differences in \( \text{gravity} \). Since the force of gravity on Earth is higher, you would expect to weigh \( \text{more} \) on Earth and \( \text{less} \) on the Moon.

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