Its mass remains the same (except for the very small amounts that stick to the knife blade).
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.
You can divide any shape into smaller pieces so that all pieces have the same surface area. However, you can no longer divide an arbitrary shape (including an ellipse) into smaller pieces so that all pieces have the same shape.
yes because it is
The mass of an apple could be 200 grams, never 200 kilograms. An apple with 200 grams of mass would weigh 1.96 newtons (7.1 ounces) on Earth. If an astronaut carried the same 200 grams with him to a different place, it would have a different weight there.
Decompose in this situation means to break down living things into smaller pieces, and then returning the nutrients back into the soil. The same wth decomposing.
It is a physical change because while the apple is cut into smaller pieces, it is still composed of the same materials. If you lit the apple on fire, that would result in a chemical change.
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.
well chunks and pieces are basically the same thing although pieces will soften better in the oven as it bakes. hope it helps :)
around the same mass
"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.
If the units are the same, that will be the one with the smaller number of units.
No, it is the same; it is also the same in free-fall.
No. It has the same mass, and the same density.
As long as you don't lose any pieces or add any pieces then yes, they do.
The mass stays the same.
Well, this is not exact, but smaller atoms have about the same number (and mass) of neutrons and of protons. Heavier atoms have a larger percentage of their mass in neutrons.Well, this is not exact, but smaller atoms have about the same number (and mass) of neutrons and of protons. Heavier atoms have a larger percentage of their mass in neutrons.Well, this is not exact, but smaller atoms have about the same number (and mass) of neutrons and of protons. Heavier atoms have a larger percentage of their mass in neutrons.Well, this is not exact, but smaller atoms have about the same number (and mass) of neutrons and of protons. Heavier atoms have a larger percentage of their mass in neutrons.