0
First we must answer the question, "What is gravity?" There are many opposite charges that radiate electric fields. Two electric fields coming from opposite charges can pair up and travel through anything until they encounter opposite charges, such that the lower charge is pulled down first and then the upper charge is pulled down. The electric fields are absorbed by charges opposite from the ones that they originally came from. The time between the pulling down is according to the speed of light in the direction that the graviton was traveling. Only those gravitons that meet that special constraint are effective. That is why the gravitational "force" is so much weaker than the unpaired bare electric "force". The more gravitons (from a direction) meeting those dynamic conditions, the greater the force on an object.
The proper answer is not exactly the mass of the object producing the gravitons for "doing the pulling", and the distance (r) from the pair of charges being pulled downward to the object producing the gravitons that will later do the pulling. This is because gravitons are absorbed, as they encounter opposite charges having just the right dynamical properties. Space opens up as r times r but only the remaining unabsorbed gravitons expand outwards for a while, as r times r. Because gravitons are actually discontinuous, with a large enough separation of r, it would be possible that there are no surviving gravitons, no matter what the mass of the object producing the gravitons. That is why the "universe" is expanding. With enough mass in the way, the gravitons are all eventually absorbed. Each bare charge is an infinite duration source of power. Each bare charge gives up a vast flux of electric fields radiating outward at the speed of light. Charges encountered by those electric fields have their momenta changed upon absorbing those electric fields. In the frame of the encountered charge before the electric field is absorbed, the charge afterwards has absorbed some energy from the electric field, as it is afterwards moving. Useful energy can be delivered to a mass rotating about a horizontal axis, according to the Bessler principle. There is actually nothing at all static about the electric field or the gravitational field. They both propagate at the speed of light in pure vacuum.
What else can I help you with?
What is strength of gravitational pull of any given heavenly body a function of?
The strength of gravitational pull of any given heavenly body is primarily determined by its mass and distance from other objects. The greater the mass of the body and the closer it is to another object, the stronger the gravitational pull will be.
Mercury's gravitational field strength?
Mercury's gravitational field strength is approximately 3.7 m/s^2, which is about 38% of Earth's gravitational field strength. This means that objects on the surface of Mercury would weigh less compared to Earth due to the lower gravitational pull.
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.
What are the four things that affect tides?
The four main factors that affect tides are the gravitational pull of the moon, the gravitational pull of the sun, the rotation of the Earth, and the shape of the coastline.
What has a higher gravitational pull the equator or the north pole?
The gravitational pull of the earth is pretty much the same anywhere between the poles and the equator creating a centripetal force pulling things in towards the earth.. However, the rotation of the planet results in an outward centrifugal force pushing things away from the earth. This force is greatest at the equator. Even though the gravitational pull is the same everywhere, the centrifugal force at the equator gives the impression of a very slightly lower gravitational pull.
What determine the gravitational pull of a object?
An object's gravitational pull is determined by the object's mass.
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.
Which position of the moon causes the graetest gravitational pull in one directio on earth?
The moon's position males virtually no difference to the strength of its gravitational pull.
What are two things that determine gravity?
Mass and distance are the two main factors that determine the strength of gravity between objects. The greater the mass of an object, the stronger the gravitational pull it exerts. Additionally, the closer two objects are to each other, the stronger the gravitational force between them.
What is strength of gravitational pull of any given heavenly body a function of?
The strength of gravitational pull of any given heavenly body is primarily determined by its mass and distance from other objects. The greater the mass of the body and the closer it is to another object, the stronger the gravitational pull will be.
What are things that produce things?
the gravitational pull of the sun and moon
What are 2 factors that determine why planets differ?
density and gravitational pull
Why there will be a point between the earth and the moon at which the gravitational field strength will be zero?
At a point between the Earth and the Moon where the gravitational field strength is zero, the gravitational pull from the Earth and the Moon cancels out, resulting in a net force of zero. This point is known as the L1 Lagrange point, where the gravitational forces are balanced due to the interaction between the gravitational pull of the Earth and the Moon.
Mercury's gravitational field strength?
Mercury's gravitational field strength is approximately 3.7 m/s^2, which is about 38% of Earth's gravitational field strength. This means that objects on the surface of Mercury would weigh less compared to Earth due to the lower gravitational pull.
What would determine the gravitational pool?
The gravitational pull between two objects is determined by their mass and the distance between them. The larger the mass of the objects and the closer they are to each other, the stronger the gravitational pull will be.
Does planet mars have gravitational pull?
Yes. It's about 38% of the strength of Earth's gravity.
Does every object have a gravitational pull on another object?
Yes. A gravitational force attracts every mass toward every other mass.
