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What provides the centripetal force required for planetary motion?
In the case of planetary motion, the centripetal force required to keep planets in orbit around the sun is provided by the gravitational pull between the planet and the sun. This gravitational force acts as the centripetal force, keeping the planet moving in its elliptical orbit.
Is centripetal force equal to gravitational force in working of a satillite?
No, centripetal force is the force required to keep an object moving in a circular path, while gravitational force is the force of attraction between two objects due to their mass. In the case of a satellite orbiting a planet, the centripetal force required to keep the satellite in orbit is provided by the gravitational force between the satellite and the planet.
What would be the greatest force of gravitational attraction?
The force of gravitational attraction between two objects is strongest when their masses are large and they are very close together. For example, a planet and a star or two massive celestial bodies would experience a strong gravitational attraction between them.
What is potential energy of a satellite?
The potential energy of a satellite in orbit around a planet is due to the gravitational attraction between the satellite and the planet. It is a type of energy that depends on the satellite's position relative to the planet, and is higher the higher the satellite is from the planet's surface. Mathematically, the potential energy of a satellite can be calculated using the formula: PE = - G * (m1 * m2) / r, where G is the gravitational constant, m1 and m2 are the masses of the planet and satellite, and r is the distance between their centers.
How do you increase and decrease gravity?
To increase gravity, you would need to increase the mass of the object or planet exerting the gravitational force. To decrease gravity, you would need to reduce the mass of the object or planet exerting the gravitational force. Another way to decrease gravity is by increasing the distance between the objects experiencing the gravitational force.
What is the relationship between the mass of the planet and the relative strenghth of its gravitational pull?
The relative strength of its gravitational pull is directly proportional to the planet's mass.
Is there any relationship between the mass of a planet and its gravitational field strength?
Yes, there is a relationship between the mass of a planet and its gravitational field strength. The greater the mass of a planet, the stronger its gravitational field strength will be. Gravity is directly proportional to mass, so planets with more mass will have a stronger gravitational pull.
Is there a relationship between planet size and weight?
Yes, but the planet's density also plays a role.Yes, but the planet's density also plays a role.Yes, but the planet's density also plays a role.Yes, but the planet's density also plays a role.
How does the mass of a planet influence the gravitational pull?
The amount of gravity that something possesses is proportional to its mass and distance between it and another object.
What relationship exists between a planet's distance from the sun and its period of revolution?
The relationship that exists between a planet's distance from the Sun and its period of revolution is that the closer the planet is from the Sun, the less amount of time it takes for the planet to complete its period of revolution.
Is there any relationship with the number of rings and moons around a planet?
Generally, the larger the planet the more rings or moons due to its greater gravitational influence and the quantity of leftover debris remaining in the accretion disc following the planet's formation- but there are also many other factors.
Why does adding a second planet affect the orbit of the first planet?
Adding a second planet affects the orbit of the first planet through gravitational interactions. The gravitational pull between the two planets can cause changes in the orbit of the first planet, such as variations in its speed, shape, or orientation. These gravitational influences create a complex system where the orbits of both planets are interconnected and can influence one another over time.
What relationship is there between your weight on a planet and the height you can jump?
Your weight on a planet is determined by its gravitational pull, which affects how much force is exerted on your body. A higher weight due to stronger gravity typically means that you will jump lower because it requires more force to overcome that gravitational pull. Conversely, on a planet with weaker gravity, you would weigh less and could jump higher since less force is needed to lift your body off the ground. Therefore, there is an inverse relationship between your weight and your jump height relative to the gravitational strength of the planet.
Is there a relationship between the distance a planet is from the sun and its surface gravity?
Yes, there is a relationship between a planet's distance from the sun and its surface gravity. The closer a planet is to the sun, the stronger the gravitational pull from the sun, which can affect the planet's own gravity. However, other factors, such as a planet's mass and composition, also play a significant role in determining its surface gravity.
What are any connections between the mass of a planet and the number of moons it has?
The mass of a planet can influence the number of moons it has through its gravitational pull, which can capture moons as they orbit. Larger planets with stronger gravitational fields are more likely to have more moons. Additionally, the size of the planet can also affect the amount of material available for moon formation, potentially leading to more moons.
What is the relationship between a planet's distance from the sun and the planet's period of revolution?
The relationship between the planet's SPEED and its distance from the Sun is given by Kepler's Third Law.From there, it is fairly easy to derive a relationship between the period of revolution, and the distance.
True or false the more mass a planet has the more its gravitational pull to another planet?
True. The gravitational force between two planets is directly proportional to the product of their masses. So, the greater the mass of a planet, the stronger its gravitational pull towards another planet.
