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What else can I help you with?
Are you saying inertia is a source of gravity?
Gravity is related to masses. Inertia is simply another effect of masses. I would say that the mass is the source, both for gravity and for inertia. The basic unit, however, is the mass.Gravity is related to masses. Inertia is simply another effect of masses. I would say that the mass is the source, both for gravity and for inertia. The basic unit, however, is the mass.Gravity is related to masses. Inertia is simply another effect of masses. I would say that the mass is the source, both for gravity and for inertia. The basic unit, however, is the mass.Gravity is related to masses. Inertia is simply another effect of masses. I would say that the mass is the source, both for gravity and for inertia. The basic unit, however, is the mass.
How does increasing mas affect gravity?
Gravity has no effect on mass, and mass has no effect on gravity. The characteristic behavior of gravity is that the force between two masses is directly proportional to the product of the masses, so if one or both masses were to increase, the mutual gravitational forces between them would increase in proportion to the increase in the product. That happens regardless of what the starting or ending mass happens to be, because mass has no effect on gravity.
What are the two variables that effect the force of gravity?
The two variables that affect the force of gravity are the mass of the objects involved and the distance between them. The force of gravity increases with the mass of the objects and decreases with the distance between them.
When the masses are doubled and separation is halved what effect do they have on the gravitational force between the masses?
When the masses are doubled and the separation is halved, the gravitational force between the masses increases by a factor of four. This is because the force of gravity is directly proportional to the product of the masses and inversely proportional to the square of the separation distance.
What happens to the amount of gravity when the masses get bigger or smaller?
The force of gravity is stronger between larger masses, and weaker between smaller masses. That's why there's more force between you and the Earth than there is between you and a bowling ball, for example.
What is the effect of increasing the mas on the experimental value of the acceleration due to gravity?
No effect. All masses experience the same acceleration due to gravity.
Are you saying inertia is a source of gravity?
Gravity is related to masses. Inertia is simply another effect of masses. I would say that the mass is the source, both for gravity and for inertia. The basic unit, however, is the mass.Gravity is related to masses. Inertia is simply another effect of masses. I would say that the mass is the source, both for gravity and for inertia. The basic unit, however, is the mass.Gravity is related to masses. Inertia is simply another effect of masses. I would say that the mass is the source, both for gravity and for inertia. The basic unit, however, is the mass.Gravity is related to masses. Inertia is simply another effect of masses. I would say that the mass is the source, both for gravity and for inertia. The basic unit, however, is the mass.
How is occur gravitation?
Gravity is an effect of mass. Two masses will attract each other proportional to their masses and the force varies by the inverse square of the distance.
How does increasing mas affect gravity?
Gravity has no effect on mass, and mass has no effect on gravity. The characteristic behavior of gravity is that the force between two masses is directly proportional to the product of the masses, so if one or both masses were to increase, the mutual gravitational forces between them would increase in proportion to the increase in the product. That happens regardless of what the starting or ending mass happens to be, because mass has no effect on gravity.
What are the two variables that effect the force of gravity?
The two variables that affect the force of gravity are the mass of the objects involved and the distance between them. The force of gravity increases with the mass of the objects and decreases with the distance between them.
What has the impact been on gravity?
Gravity is only affected by masses, and by how far you are from those masses.
How does shape and air resistance can effect the laws of gravity?
It doesn't. The force of gravity depends on the masses involved, and their distance. However, air resistance can introduce other forces, that counteract the force of gravity.
How do the changes in mass and distance effect the force of gravity?
Bigger masses mean a bigger force of gravity. Bigger distances mean smaller forces. Mathematically, the force is directly proportional to the product of the masses, and inversely proportional to the square of the distance.
When the masses are doubled and separation is halved what effect do they have on the gravitational force between the masses?
When the masses are doubled and the separation is halved, the gravitational force between the masses increases by a factor of four. This is because the force of gravity is directly proportional to the product of the masses and inversely proportional to the square of the separation distance.
What law explains why masses are attracted to other masses?
The Law of Gravity
What happens to the amount of gravity when the masses get bigger or smaller?
The force of gravity is stronger between larger masses, and weaker between smaller masses. That's why there's more force between you and the Earth than there is between you and a bowling ball, for example.
What is the differences n similarities of gravity force and electricity force?
Similarities: Both obey an inverse-square law, and, it seems, extend to an arbitrarily far distance.Differences: Gravity is always attractive; gravity is much weaker for individual particles, but because it is always attractive, the overall effect at long distances, and for large masses, is predominant.Similarities: Both obey an inverse-square law, and, it seems, extend to an arbitrarily far distance.Differences: Gravity is always attractive; gravity is much weaker for individual particles, but because it is always attractive, the overall effect at long distances, and for large masses, is predominant.Similarities: Both obey an inverse-square law, and, it seems, extend to an arbitrarily far distance.Differences: Gravity is always attractive; gravity is much weaker for individual particles, but because it is always attractive, the overall effect at long distances, and for large masses, is predominant.Similarities: Both obey an inverse-square law, and, it seems, extend to an arbitrarily far distance.Differences: Gravity is always attractive; gravity is much weaker for individual particles, but because it is always attractive, the overall effect at long distances, and for large masses, is predominant.
