Amount of mass, or matter, desnity, it depends on context
Volume.
Mass is the measure of how much matter or "stuff" an object contains
This is called thermal expansion. When an object is heated, it's particles move faster. This causes greater separation between the particles and the object expands. The coefficient of thermal expansion describes how much an object will expand per degree with the same applied pressure.
Area is the measure of how much surface an object has.
G= m.g To find the value of gravitational force applied on an object (in other but less scientific words- the amount of gravity that pulls an object) you should multiply the mass of the object (m, generally in kg) and the gravitational acceleration (g, generally in ms-2) in that area.
That depends on the object.
Mass is the measure of how much matter or "stuff" an object contains
yes because you can weigh the object but you don't change the object at all
Density , "m/v=d and m=dv "
No. Mass is the amount of matter in an object, essentially how much "stuff" is in it. In 3-dimentional terms, volume is usually the best term for size.
Mass: is the weight of an object. Volume: is the space inside an object. Density: is how much stuff there is in some ammount of space:3 your welcome
How much does the gravity affects an object is called weight. The formula for weight is mg or mass into gravitation.
No. Scientific theories and laws are two very distinct groups with separate functions. A theory describes a phenomena, while a law explains it. For example, Newton's First Law EXPLAINS why objects in motion stay in motion with the idea of inertia. The theory of evolution DESCRIBES how organisms change over time.
Density is kinda like how much pressure an object takes up. You need to do mass divided by volume to get the density.
"how much stuff"
In Physics, the mass of an object is defined as a property of matter that is equal to the measure of the object's resistance to the changes in either direction or speed of its motion. The mass of an object is measured in Kilograms.
This is called thermal expansion. When an object is heated, it's particles move faster. This causes greater separation between the particles and the object expands. The coefficient of thermal expansion describes how much an object will expand per degree with the same applied pressure.
As much as a packer can pack in a pack.