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Considering the mass of the two objects should answer that question.
No because when they were in the box they were all together when you placed them together they're all together
Mass is the amt. of matter in a space. The mass of all of the pieces together stays the same, while the mass of individual pieces that have been cut lessens.
yes
The only "weigh" to determine the mass of an object is to compare it with the mass of a known object. The mass of an object is determined by force and acceleration.
The total mass remain unchanged.
the number of pieces should weight less than the whole pie weight.. la weraa
Considering the mass of the two objects should answer that question.
Its mass remains the same (except for the very small amounts that stick to the knife blade).
No because when they were in the box they were all together when you placed them together they're all together
a mass is 1200 pieces.
1 cup of sliced almonds has a mass of 92g
No, the apple mass does not stay the same after taking a bite. When a person takes a bite out of an apple, a portion of the apple's mass is removed. The total mass of the apple decreases as a result.
Mass is the amt. of matter in a space. The mass of all of the pieces together stays the same, while the mass of individual pieces that have been cut lessens.
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.
The idea is to divice the mass by the volume, to get the density. Then compare to the density of silver.The idea is to divice the mass by the volume, to get the density. Then compare to the density of silver.The idea is to divice the mass by the volume, to get the density. Then compare to the density of silver.The idea is to divice the mass by the volume, to get the density. Then compare to the density of silver.