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What else can I help you with?
Does Pluto have a gravitational force and i just want a yes or no answer?
no
Is Pluto massive enough to be a sphere by its own gravitational force?
no
What would happen to the magnitude of the gravitational force between the sun and Pluto?
The magnitude of the gravitational force between the Sun and Pluto is determined by Newton's law of universal gravitation, which states that the force is directly proportional to the product of their masses and inversely proportional to the square of the distance between them. As Pluto orbits the Sun, its distance varies, affecting the gravitational force. If Pluto moves closer to the Sun, the gravitational force increases; conversely, if it moves farther away, the force decreases. However, since both the Sun and Pluto have relatively constant masses, the primary factor affecting the force is their changing distance.
What is the gravitational force between Pluto and Ceres?
The gravitational force between any two objects is proportional to their masses and inversely proportional to the square of their distance from each other. Both Pluto and Ceres are dwarf planets and, as such, have very little mass, especially in comparison with the Sun. Pluto is in the Kuiper belt, and Ceres is in the asteroid belt. That places them quite a distance from each other. The net result is that the gravitational force between them is insignificant.
Does Pluto have a weak gravitational pull?
Yes - in fact, anything that has mass will exert a gravitational force (including comparably small objects, like a human being). Pluto's force of gravity is equal to 0.58m/s2, which is about 6% that of the gravity on Earth.
What is the gravitational force in newtons on Pluto?
The gravitational force on Pluto is approximately 0.62 meters per second squared (m/s²). This low gravity is due to its small mass and size compared to larger celestial bodies like Earth. To calculate the gravitational force on an object on Pluto, you can multiply its mass by this gravitational acceleration (F = m × g), where g is 0.62 m/s². For example, a 1 kg object would experience a gravitational force of about 0.62 newtons.
What would happen to the magnitude of the gravitational force between the sun and Earth if Earth was placed in Pluto's orbit?
The magnitude of the gravitational force between the sun and Earth would decrease if Earth was placed in Pluto's orbit. This is because the force of gravity between two objects is inversely proportional to the square of the distance between them, so as Earth moved farther away from the sun (as in Pluto's orbit), the gravitational force would weaken.
How much would an object weigh on earth if it weighed 100 ponds on Pluto?
An object that weighs 100 pounds on Pluto would weigh 262 pounds on Earth, assuming the same mass of the object. This is because weight is proportional to the gravitational force acting on an object, and the gravitational force is stronger on Earth than on Pluto.
Why do you weigh more on earth than on Pluto?
You weigh more on Earth than on Pluto because of the difference in gravitational pull between the two. Earth's gravitational force is much stronger than Pluto's, which causes you to weigh more on Earth.
Why is the force of grabity greater on earth than on Pluto?
The force of gravity is greater on Earth than on Pluto primarily due to Earth’s larger mass and size. Gravity is directly proportional to mass; since Earth has a significantly greater mass than Pluto, it exerts a stronger gravitational pull. Additionally, Earth's larger radius means that objects are closer to its center, enhancing the gravitational force experienced at its surface compared to that on Pluto. As a result, objects weigh substantially more on Earth than on Pluto.
What would happen to the magnitude of the gravitational force between the sun and Earth if Earth were placed in Pluto's orbit?
The magnitude of the force would decrease greatly.
What would happened to the magnitude of the gravitational force between the sun and Earth if earth were placed in Pluto's orbit?
The magnitude of the force would decrease greatly.
