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What is the amount of space taken up by the object?

What is the amount of space taken up by the object?

Volume
Volume simply refers to the space an object takes up. Depending on the physical state of an object, there are a couple ways to measure volume.

What does it mean for an object taking up space or volume?

Taking up space means that an object has a measurable size or volume. Mass is a property of matter that is a measure of its resistance to acceleration. Another property of matter is that has a gravitational force, such that objects attract each other with a weak force. There are also various particles of matter.

Does a solid take up space?

Matter is anything that has mass and takes up space. If something is in a solid state of matter, it has a definite shape and volume. The volume of an object is the amount of space it occupies. A block of wood placed on a table retains its shape and volume, therefore, it is an example of a solid.

How do you tell if an object is matter?

Matter is any substance that has mass and takes up space. Everything is made of matter, so any object you can name consists of matter. Basically, if it takes up space and has mass, it’s matter.

Do solids occupy space?

If something is in a solid state of matter, it has a definite shape and volume. The volume of an object is the amount of space it occupies. A block of wood placed on a table retains its shape and volume, therefore, it is an example of a solid. If a liquid is poured on that same table, there are very different results.

How much stuff is in an object?

Mass is the measure of the matter in an object. Volume is the measure of space occupied by the matter.

Is there any object that has mass but does not occupy space?

A fire consists of hot gases and plasma (matter), yet gives off light and heat (not matter). Time: Time can be measured, but it has no mass and occupies no volume. Rainbow: A rainbow is an optical phenomenon. It’s essentially light.

Does Air occupy space experiment?

In this experiment a plastic cup containing air and a crumpled napkin are turned upside down and placed into a container of water. Air and water cannot occupy the same space at the same time, therefore the napkin remains dry.