answersLogoWhite

0

Mass and energy are related through Einstein's famous equation, Emc2. This equation shows that mass can be converted into energy and vice versa. When energy is added to a system, the mass of that system can increase, and when energy is removed, the mass can decrease. This relationship between mass and energy is a fundamental concept in physics.

User Avatar

AnswerBot

3mo ago

What else can I help you with?

Continue Learning about Physics

How does a change in mass affect the potential and kinetic energy of an object, and could you explain the specific impact of this change on the overall energy of the object?

When the mass of an object changes, its potential and kinetic energy also change. An increase in mass leads to an increase in potential and kinetic energy, while a decrease in mass results in a decrease in both types of energy. This change in mass directly impacts the overall energy of the object, as the total energy of the object is the sum of its potential and kinetic energy.


Does mass increase during a nuclear change?

No, mass does not increase during a nuclear change. According to the principle of mass-energy equivalence (E=mc^2), the mass of the reactants is converted into energy during a nuclear change.


What is the maximum amount of energy the mass can change from gravitational potential energy to kinetic energy?

The maximum energy conversion from gravitational potential energy to kinetic energy occurs when all of the initial potential energy of the mass is converted to kinetic energy. This means that the maximum amount of energy the mass can change from gravitational potential energy to kinetic energy is equal to the initial potential energy of the mass.


Who was The mathematical relationship of the change of mass to energy discovered by?

The mathematical relationship of the change of mass to energy was discovered by Albert Einstein with his famous equation E=mc^2, where E represents energy, m represents mass, and c is the speed of light. This equation revolutionized the field of physics by showing that mass and energy are interchangeable.


A change in a objects speed has a what effect on its kinetic energy than a change in mass?

A change in an object's speed has a greater effect on its kinetic energy than a change in mass. Kinetic energy is proportional to the square of the velocity, so even a small change in speed can result in a significant change in kinetic energy. On the other hand, mass only affects kinetic energy linearly.

Related Questions

What does the law of conservation of mass - energy state?

It states that energy can change but mass can not change Chuma.C


Why does the law of conservation of energy have to include changes in mass?

It doesn't really have to - there is no such thing as "mass-to-energy conversion", rather, a change in energy will be accompanied by a change in mass. But the change in mass sometimes simplifies calculations.


How do you calculate change in energy?

The change in potential energy is equal to mass*gravity*change in height


How does a change in mass affect the potential and kinetic energy of an object, and could you explain the specific impact of this change on the overall energy of the object?

When the mass of an object changes, its potential and kinetic energy also change. An increase in mass leads to an increase in potential and kinetic energy, while a decrease in mass results in a decrease in both types of energy. This change in mass directly impacts the overall energy of the object, as the total energy of the object is the sum of its potential and kinetic energy.


Does mass increase during a nuclear change?

No, mass does not increase during a nuclear change. According to the principle of mass-energy equivalence (E=mc^2), the mass of the reactants is converted into energy during a nuclear change.


What is the maximum amount of energy the mass can change from gravitational potential energy to kinetic energy?

The maximum energy conversion from gravitational potential energy to kinetic energy occurs when all of the initial potential energy of the mass is converted to kinetic energy. This means that the maximum amount of energy the mass can change from gravitational potential energy to kinetic energy is equal to the initial potential energy of the mass.


What is matter and the law of conservation of matter?

The total amount of mass-energy in a closed system cannot change. Energy can change from one form to another, Mass can change from one form to another, Energy can change to Mass, or Mass can change to Energy; but the total must remain constant. Since Mass and Energy are traditionally measured in different units, we need a units conversion equation to tell us how much of each has changed to the other to get the equations right. Einstein provided us with that from his Special Relativity: E = Mc2


Does an object mass change potential energy?

Kinematics


What give something kinetic energy?

Kinetic energy depends on mass, and speed. Since you can't easily change an object's mass, you would basically change its speed.


Energy has no mass or volume but can cause a change in?

Energy can cause a change in energy of other bodies-gives them energy.. Energy can cause energy changes eg dropping a basket ball,kinetic(motion) to sound energy(we may hear it bounce) Energy and mass are proportional.This follows from the equation: E=mc(squared) where e is energy and m is mass.


Who was The mathematical relationship of the change of mass to energy discovered by?

The mathematical relationship of the change of mass to energy was discovered by Albert Einstein with his famous equation E=mc^2, where E represents energy, m represents mass, and c is the speed of light. This equation revolutionized the field of physics by showing that mass and energy are interchangeable.


A change in a objects speed has a what effect on its kinetic energy than a change in mass?

A change in an object's speed has a greater effect on its kinetic energy than a change in mass. Kinetic energy is proportional to the square of the velocity, so even a small change in speed can result in a significant change in kinetic energy. On the other hand, mass only affects kinetic energy linearly.