the mass is the same because think about it you made the object from its parts so they would be the same
The object's mass doesn't change, no matter where it is or where it goes.
The center of mass of an object is the point at which its mass can be considered to be concentrated. It is the average position of all the mass in the object. It is the point around which the object will balance in any orientation.
The moon has 1/6th the gravity of the Earth. If something weighed 60 pounds on Earth it would weigh ten pounds on the Moon. The mass of the object would not change, as mass is the measurement of how much stuff you are.
The mass of an object doesn't depend on the gravitational force on the object.
It's 4.2 . An object's mass doesn't change. The thing that does change is the gravitational forcethat attracts the object to another mass. The strength of that force depends on the mass of bothobjects. The force on the first object is what we call the object's "weight".
the mass is the same because think about it you made the object from its parts so they would be the same
there is no change in the mass of body
The object's mass doesn't change, no matter where it is or where it goes.
The shape of an object bears no relation to the mass of an object.
The weight of an object remains the same before and after an interaction, since weight is a force resulting from gravity acting on the mass of the object. The weight is the same whether the object is in one piece or separated into parts.
The mass would be greater
To compare an object's mass to its volume, you can calculate the object's density. Density is defined as mass divided by volume. By determining the density of an object, you can understand how much mass is contained within a given volume.
The only "weigh" to determine the mass of an object is to compare it with the mass of a known object. The mass of an object is determined by force and acceleration.
The mass of an object remains the same regardless of its location in the universe. So, the mass of an object on Neptune will be the same as its mass on Earth. However, an object's weight, which is the force of gravity acting on it, would differ between Neptune and Earth due to the different gravitational accelerations on the two planets.
Matter is quantified using the concept of mass. Mass is a measure of the amount of matter in an object and is typically measured in units such as kilograms or grams. The mass of an object can be determined by using a balance or a scale to compare it to a standard mass.
Mass is a measurement of the amount of matter in an object. It can be identified by using a balance scale to compare the object's mass to a known mass standard. The unit of mass is typically measured in grams or kilograms.
An object's weight is not the same as its mass. Weight is the result of the gravitational force acting on an object, while mass is the amount of matter in the object. Since weight depends on the gravitational pull and mass does not, the weight of an object can vary depending on where it is located in the universe.