If they are subjected to equal gravitational accelerations, YES !
W1 = ( m1 ) ( g1 ) ------> m1 = W1 / g1
W2 = ( m2 ) ( g2 ) -------> m2 = W2 / g2
Since W1 = W2 ; m1 and m2 must be equal if g1 = g2.
ANSWER : Yes if the gravitational accelerations are equal <-------------
Yes, if they are in the same gravitational field
weight = mass x gravity.
For the same gravitational field, objects with the same mass have the same weight, and vice versa.
Mass and weight are two separate things. Mass is how much an object contains. Weight is how the mass is affected by gravity. To answer your question, no, it would not.
In the same gravity, downward force (weight) is directly proportional to the mass. (F=mA) If you had two objects of equal mass, and combined them, the weight would be the same as the total of the two.
No. Weight and mass are two quite different things. Weight is the mass times the gravity. The same mass will have a different weight on other planets, for example, where the gravitational field may be stronger or weaker.
Mass and gravity
Answer: MASS~is the amount of matter an object possesses. It is measured in kg/g WEIGHT~is the amount of gravity an object possesses. It is measured in newtons (N) Answer: Mass can be understood by an object's inertia - roughly speaking, how much force it takes to speed it up or slow it down. On Earth, the two are proportional (the weight of an object in newtons is 9.8 times the mass in kilograms), but with more or less gravity - e.g., on the Moon - the same mass will have a different weight.
Mass and weight are two separate things. Mass is how much an object contains. Weight is how the mass is affected by gravity. To answer your question, no, it would not.
Use a balance with standard masses to find the mass. You need only find the mass at one of the two locations. Find the weight using a spring balance.
In the same gravity, downward force (weight) is directly proportional to the mass. (F=mA) If you had two objects of equal mass, and combined them, the weight would be the same as the total of the two.
No. Mass and weight are two separate but related properties. Mass is the amount of matter within object. Weight is the amount of force an object experiences due to gravity. So and object's mass depends on the mass of the object and the strength of gravity where it is. Weight= mass x gravity.
No. Weight and mass are two quite different things. Weight is the mass times the gravity. The same mass will have a different weight on other planets, for example, where the gravitational field may be stronger or weaker.
Because the gravitational force between any two objects depends on the product of both their masses. The object's weight on earth depends on the object's mass and the earth's mass, whereas its weight on the moon depends on the object's mass and the moon's mass. Since the moon's mass is very different from the earth's mass, the object's weight is also different there.
Mass and gravity
Answer: MASS~is the amount of matter an object possesses. It is measured in kg/g WEIGHT~is the amount of gravity an object possesses. It is measured in newtons (N) Answer: Mass can be understood by an object's inertia - roughly speaking, how much force it takes to speed it up or slow it down. On Earth, the two are proportional (the weight of an object in newtons is 9.8 times the mass in kilograms), but with more or less gravity - e.g., on the Moon - the same mass will have a different weight.
No, weight and density are not the same. They are two different physical properties of substances. Weight is a measure of the force exerted on an object due to gravity, while density is a measure of mass per unit volume.
Not just in astronomy, but in science in general.Mass can be measured by an object's inertia - how hard it is to make an object move, or to stop it. Weight is a force - the force with which something is pulled downwards by gravity. The relation between the two is: Weight = mass x gravity That means that if you take the SAME object, for example, to the Moon, it will have less weight, since there is less gravity. (The mass basically won't change.)
No, the weight and upthrust are two different forces acting on an object. If both weight and upthrust are acting on an object, the total resultant force is the two added together, but weight is solely a product of the mass (which remains unchanged, unless you take into account special relativity, but I'm guessing we're not in this instance) and acceleration acting on the given object, which remains the same.
weight & mass