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No, but the weight does. Remember W=mg. If gold were measured by weight, you could buy ounces of gold in places with a low gravitational force and sell it for the same price-per-ounce in places with a high gravitational force. But ultimately gold is sold by mass....so there;s no money to be had in such a business. Too bad.
What else can I help you with?
What is the mass of body anywhere in universe?
The mass of a body remains the same regardless of its location in the universe. Mass is an intrinsic property of an object that represents the amount of matter it contains. So, the mass of a body will not change no matter where it is located.
Does mass increase as universe expends?
No, mass does not increase as the universe expands. Mass is a conserved quantity, meaning it remains constant in a closed system. However, the total amount of mass within an expanding universe stays the same, even though the volume of space it occupies increases.
What property remains constant no matter where in the universe a material?
Our theories of physics indicate that the speed of light should be invariant (unchanging) anywhere in the universe.
Is mass the same no matter where you are in the universe?
Yes, mass is a fundamental property of matter that remains constant regardless of location in the universe. It does not change based on the location or the gravitational field it is experiencing.
Gravity acts on any two object with mass anywhere in a universe true or false?
True. Gravity is a universal force that acts between any two objects with mass, regardless of their location in the universe.
The mass of an object remains the what anywhere in the universe?
The mass of an object remains the same anywhere in the universe. Mass is a measure of the amount of matter in an object, and it does not change regardless of the location or environment. This is a fundamental principle in physics known as the conservation of mass.
Why do scientists rely on mass rather than weight?
Because an objects mass is the same anywhere in the universe.
What is the mass of body anywhere in universe?
The mass of a body remains the same regardless of its location in the universe. Mass is an intrinsic property of an object that represents the amount of matter it contains. So, the mass of a body will not change no matter where it is located.
Is there gravity anywhere else in the universe?
Where a body has mass, there is gravity.
What is the mass of a dog on mars?
The mass of a dog is the same on Mars as it would be on Earth or anywhere else in the universe. Howevere, dogs come in a wide variety of masses, ranging from terriers to mastiffs.
What is the mass of an object anywhere in the universe?
The mass of an object is unaffected by gravitational forces. Assuming we ignore relativistic effects (mass increase to infinite and so on) we can say that an object with a mass of 5kg will have that mass anywhere in the universe (within reason). On the other hand, an object that WEIGHS 5kg on earth will have a measured weight that varies considerably depending upon what gravitational fields are affecting it.
Everywhere in the universe this characteristic of an object stays the same?
The mass of an object remains the same everywhere in the universe.
What may be different when an object has the same mass anywhere?
The answer is weight.
Are weight and mass considered the same in outer space?
Absolutely not! Any body has the same mass anywhere. The weight of a body is the effect of gravity on the mass.
Does mass increase as universe expends?
No, mass does not increase as the universe expands. Mass is a conserved quantity, meaning it remains constant in a closed system. However, the total amount of mass within an expanding universe stays the same, even though the volume of space it occupies increases.
What property remains constant no matter where in the universe a material?
Our theories of physics indicate that the speed of light should be invariant (unchanging) anywhere in the universe.
Does your mass increase decrease or stay the same if you so to Saturn?
Your mass will stay the same no matter where you go.
