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What kind of gravity does Saturn have?
At the surface, it's about the same as the Earth's . You get a bit of variation in the value given, but, at the equator, it's about 1.065 times the Earth's. It is about 0.92 times the Earth's gravity, if you take into account the effect of the planet's rotation.
What effect does gravity have on Neptune?
Gravity on Neptune is responsible for holding the planet together and keeping its atmosphere in place. The strong gravitational pull of Neptune also affects its moons and nearby objects in space, controlling their orbits and movements.
What effect does gravity have on mercury?
Gravity behaves exactly the same on Mercury as it does everywhere else in the universe. Taking into consideration the mass and radius of Mercury, you would calculate that the the acceleration due to gravity at its surface, and therefore the weight of any object on its surface, are about 38% of what they are on Earth, and you'd be correct. That's what they are.
What activity can be used to demonstrate objects in motion?
A simple experiment using a rolling ball on a track or ramp can be used to demonstrate objects in motion. As the ball moves down the track, its speed and direction can be observed. This activity can help illustrate concepts such as acceleration, velocity, and the effect of gravity on objects in motion.
Is gravity on earth greater or less then gravity on Venus?
The gravity present on a planet is usually denoted by the acceleration an object would experience due to gravity on that planet's surface. If we stick to Newtonian gravity (which should be adequate for our present purpose) the acceleration due to gravity on a planet is given by: a = G*M / R^2 Where G is Newton's gravitational constant, M is the mass of the planet, and R is its radius (remember we are standing on the surface). (Note: Here I have neglected the vector qualities of acceleration, this will not matter at present, the acceleration will be pointing down, towards the center of the planet.) From this formula we can see that the acceleration increases if the mass of the planet increases. This is to be expected; gravity (in Newtonian gravity) is caused by mass, and thus a bigger mass means a stronger gravitational field. Since Venus is less massive than Earth we might expect the surface gravity on Venus to be less than on Earth. However, we also have the R^2 in the denominator. This means the surface gravity on a planet will increase if the radius decreases (and the mass stays the same). This is also clear; if the radius is less then you stand deeper into the gravitational field. Venus is about the same size as Earth so this effect should not play as much a role as the difference in mass does. Thus, just by using these arguments we can already conclude that the surface gravity on Earth is larger than the surface gravity on Venus. Let us now look at some numbers. Earth's surface gravity is about 9.81 m/s^2 (it varies slightly from location to location). And Venus' surface gravity is 8.87 m/s^2, which is less, as expected. This means that if you weigh 70 kg on Earth you will weigh 70*(8.87/9.81) = ~63 kg on Venus.
The acceleration of gravity on the surface of a planet will effect a person's or object's what?
weight
How acceleration effect gravity?
Acceleration does not effect gravity. It is rather the other way round. Gravity can affect the rate of acceleration.
How does speed and acceleration effect gravity?
Speed and acceleration do not directly affect gravity. Gravity is a fundamental force that acts on all objects regardless of their speed or acceleration. However, an object's speed and acceleration can influence its motion within a gravitational field, such as causing it to orbit a larger body or fall towards it at an accelerated rate.
Effect of acceleration due to gravity?
Acceleration due to gravity is the force that pulls objects towards the Earth. It causes objects to accelerate at a rate of 9.81 m/s^2 towards the ground. This acceleration is responsible for the feeling of weight that we experience, and it also affects the trajectory of objects thrown or dropped.
What is the Effect of increasing the object's mass of the acceleration due to gravity?
On earth, the mass of an object has no effect whatsoever on its acceleration due to the force of gravity. All objects fall with the same acceleration, regardless of their mass. Any observed difference is due entirely to air resistance.
What does gravity effect the motion of objects?
Gravity affects the motion of objects by pulling them towards the center of the Earth. This force causes objects to accelerate as they fall towards the ground. The acceleration due to gravity is a constant value on Earth, which is approximately 9.81 m/s^2.
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.
Effect of surface area from gravity on earth?
The effect of surface area on gravity on Earth is minimal. Gravity primarily depends on the mass of the Earth and the distance between an object and the Earth's center. Changes in surface area would not significantly affect the gravitational pull experienced by objects on Earth.
What is gravity if it is not a force?
Gravity really is one of the four main forces of the Universe. gravity is an effect and not the cause of anything, no gravitation's, no gravity waves, none of it. gravity is a dynamic effect. the acceleration of the underlying for of energy focused to the center of a mass. there is no separate force called gravity, just a dynamic effect we call 'gravity'
Does gravity exert the same force on all falling objects?
No. Gravity can be thought of as a force, but that is due to its effect on anything that possesses mass and/or energy. The effect that gravity exerts on any object is proportional to the amount of mass that is responsible for the presence of gravity and is also proportional to the amount of mass possessed by the object experiencing that gravitational presence. Therefore a gravitational field will exert a greater 'force' on a greater mass. However, mass also possesses the characteristic of inertia, which is a measure of resistance to any change to a state of motion - which effectively is a resistance to the effect of gravity. Inertia is also proportional to mass. What this means is that the greater the mass, the greater the pull it experiences due to gravity but at the same time, the greater is its resistance to that pull. Hence all falling objects experience the same acceleration due to the effect of gravity which is not the same as the force. All objects fall at the same rate. ========================= (Note: Gravity does not exert the same force on all objects, which is the reason why big people "weigh" more than smaller people do on the same planet.)
Does gravity have an effect on objects of different sizes?
Yes, gravity affects objects of different sizes in the same way. It depends on the mass of the objects and the distance between them. All objects are attracted to each other by gravity, following the universal law of gravitation.
What is coriolis component of acceleration?
The Coriolis component of acceleration is the acceleration due to the rotation of the Earth. It causes objects moving across the surface of the Earth to be deflected to the right in the northern hemisphere and to the left in the southern hemisphere. This acceleration is perpendicular to the velocity of the object and is a result of the Coriolis effect.
