To change the mass of an object, you would need to add or remove matter from the object. To increase the mass, you can add more matter such as by attaching additional objects or filling it with a denser material. To decrease the mass, you can remove matter from the object such as by cutting or removing parts of it.
If you increase the mass of an object while keeping the net force constant, the acceleration of the object will decrease. This is because acceleration is inversely proportional to mass when force is constant (Newton's second law). Therefore, the object will move more slowly or take longer to reach a certain speed.
In microgravity, although the weight of an object may change due to the lack of gravitational force, its mass remains constant. Mass is an intrinsic property of matter that does not change regardless of the presence or absence of gravity. This means that an object will have the same mass regardless of its location in the universe.
no, mass is how much of something is in an object. If you go to the moon your mass will be the same. Weight and mass are different. But mass can change if an object is altered, IA person's mass will not be the same after he has had a limb amputated. Still the same person, not the same mass. no its chicken <- whoever wrote that is completely wrong. Mass increases as you the traveling vessel approach the speed of light. If the velocity where to be attained, theoretically mass would equate to infinity in the observers perspective. His description of change in mass is subjective. Technically the arm and lost blood hold the same mass value as did the individual as a whole before the amputation. unless of course the amputation was done via nuclear explosion/fusion :D. On a rudimentary level, mass is dependant only on perspective and relation to surrounding objects. If we were all and always were sumo wrestlers, would we be said wrestler or normal people? perspective. Austin John Charles Mayer mayeraus41@gmail.com
An object that fits this description is a physical object, such as a book or a table. These objects have volume and mass, which means they take up space and have weight.
No, the inertia of an object does not change as its velocity changes. Inertia is the resistance of an object to changes in its state of motion, and it is dependent on the mass of the object, not its velocity.
In general, an object's mass CANNOT change, unless you take something away from it or add something to it.
You can add something to an object, or take something away. Other than that, you can't really change an object's mass. Do some reading on "conservation of mass" for more details.
You can't change the mass of an object (unless you add something to it, or take something away). But you can choose an object of the desired mass to carry out the experiment.
A mass of an object will usually only change if you add something to it, or take something away. According to the Special Theory of Relativity, the mass can also increase if the object moves very fast - at speeds comparable to the speed of light.
10 kilograms, of course. If you take an object to the Moon, its weight will change, but its mass won't.
Mass can only change when you add mass, or take mass away.According to the Theory of Relativity, if an object has a high speed (comparable to the speed of light), its mass will increase. However, it takes energy and therefore mass to accelerate an object, so the law of conservation of mass is still valid - the mass gained by one object is lost by another object.
Yes, density is defined as mass divided by volume, and mass doesn't change when you take something on a spaceship.Yes, density is defined as mass divided by volume, and mass doesn't change when you take something on a spaceship.Yes, density is defined as mass divided by volume, and mass doesn't change when you take something on a spaceship.Yes, density is defined as mass divided by volume, and mass doesn't change when you take something on a spaceship.
If you increase the mass of an object while keeping the net force constant, the acceleration of the object will decrease. This is because acceleration is inversely proportional to mass when force is constant (Newton's second law). Therefore, the object will move more slowly or take longer to reach a certain speed.
In microgravity, although the weight of an object may change due to the lack of gravitational force, its mass remains constant. Mass is an intrinsic property of matter that does not change regardless of the presence or absence of gravity. This means that an object will have the same mass regardless of its location in the universe.
You take the mass of the object and divide it by the volume.
no, mass is how much of something is in an object. If you go to the moon your mass will be the same. Weight and mass are different. But mass can change if an object is altered, IA person's mass will not be the same after he has had a limb amputated. Still the same person, not the same mass. no its chicken <- whoever wrote that is completely wrong. Mass increases as you the traveling vessel approach the speed of light. If the velocity where to be attained, theoretically mass would equate to infinity in the observers perspective. His description of change in mass is subjective. Technically the arm and lost blood hold the same mass value as did the individual as a whole before the amputation. unless of course the amputation was done via nuclear explosion/fusion :D. On a rudimentary level, mass is dependant only on perspective and relation to surrounding objects. If we were all and always were sumo wrestlers, would we be said wrestler or normal people? perspective. Austin John Charles Mayer mayeraus41@gmail.com
A mass noun that is a synonym for 'change' is money.A penny is money; a dollar is money; any amount of change is money.A mass noun that is a synonym for 'change' is evolution.A process of constant change from a lower or simple state to a higher or complex state.A mass noun that is a synonym for 'change' is escapism.The ability to take mind or body away from everyday matters.