What is mass physics?
Mass Physics is the study of matter and its properties in relation to different forces. People who do not know about specific definitions often confuse weight with weight. However, the weight refers to the amount of gravity needed to withdraw the object down, while the mass is actually related to the amount of matter inside the body that remains unchanged regardless of the environment. The mass itself is studied as a gravitational mass and inertia according to mass physics.
Understanding the difference between weight and matter is important for understanding mass physics. Gravity is the power that all bodies in the universe develop each other, and in the case of planets such as Earth and Jupiter, this power is relatively essential and even keeps the moon in the Earth's orbit. The gravity of the Earth, which will pull them down and the weight is a measure of the gravitational force that is necessary to maintain objects on the ground. It is said that people weigh less on the moon than on Earth because they use the moon does not have as much gravity as the country. On the other side there is a matterThe same object is the same regardless of the surrounding gravitational situation.
The concept of matter may seem difficult to understand, but it is simply the amount of "things" that make up an object or being. Mass physics divides the mass into gravitational mass and inertia. The gravitational material is measured by placing an object with an unknown mass on a set of scales with an object with a known matter on the other side. The gravitational force for each object will be the same, allowing the weight of an unknown object to be determined using the known mass of the second object.
Inertial matter is related to Newton's law. This Act states that the force equals the mass multiplication by acceleration (F = MA), and therefore it is logically equivalent that the mass is divided by acceleration (m = f/a). Mafysics SS defines inertia as the resistance of the object to movement when force is applied. Using the known forces on the object and using the Newton equation can be found inertial massst object. It seems that inertial matter always equals gravitational matter if our measuring skills allow us to determine.