Earth pulls on the 1N apple with a force of 1N in the downward direction (towards the center of the Earth) due to gravity. At the same time, the apple also pulls on Earth with a force of 1N in the upward direction (away from the center of the Earth) according to Newton's third law of motion.
No because now part of the apple is missing so the mass would be less. The total mass of the apple is not changed, but part of the mass is now in the biter's mouth.
The mass of the apple would be approximately 0.1 kg. This is because the weight of an object on Earth is given by the formula Weight = mass * gravity, where gravity is approximately 9.81 m/s^2. Given that Weight = 1 N and gravity = 9.81 m/s^2, the mass of the apple can be calculated as 1 N / 9.81 m/s^2 = 0.1 kg.
The work done is 1 Joule. Work is calculated by multiplying force (1N) by the distance moved (1m) in the direction of the force.
The total mass of the apple remains the same whether it is whole or sliced into pieces. Slicing the apple into pieces does not change the total amount of matter in the apple.
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The apple has mass. The Earth has mass. The apple falls down, and the Earth "falls" up. The Earth's motion is not measurable. The apple's motion is.
"Pound" is a unit of force. It's not a unit of mass. The mass of an apple depends on the individual apple. If it weighs, say, 8 ounces on Earth, then its mass is 0.5 poundmass, or 0.015625 slug.
Yes an apple takes up more space than a paper towel so there for an apple has a larger mass.
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Planets have different masses, and a chunk of gold weighs 1 N depending on its mass and where it is. Other than that it's difficult to be specific.
You can feel a force of 1N by experiencing the sensation of a small weight or pull. For example, holding an apple in your hand or a light object resting on your palm applies a force of about 1N due to gravity.