Gravity and the electromagnetic forces are completely unrelated. But, in the broadest terms, gravity is the attractive force generated by bodies of sufficient mass and electromagnetism is an attractive OR repulsive force caused by the flow of electrons between certain types of materials like magnets or metals.
At what height in kilometers above the surface of the Earth is there a 4% difference between the approximate gravitational force mg and the actual gravitational force on an object
The relationship between static acceleration and an object's position in a gravitational field is that the static acceleration of an object in a gravitational field is constant and does not change with the object's position. This means that the object will experience the same acceleration due to gravity regardless of where it is located within the gravitational field.
A body A of mass m is placed in the gravitational field of a body B of mass M. The gravitational potential of body B at a point in the field is the work done is bringing unit mass from infinity to that point and is independent of body A. On the other hand, the gravitational potential energy of body A is the energy possessed by it due to its position in the field. In fact, Gravitational potential energy = mass of body(A) x gravitational potential
Gravitational potential energy is the energy stored in an object due to its position in a gravitational field, while gravitational force is the force of attraction between two objects due to their masses. Gravitational potential energy is related to the height of an object, while gravitational force depends on the masses of the objects and the distance between them.
The gravitational force (Fg) is the force of attraction between two objects due to their masses, while the acceleration due to gravity (g) is the acceleration experienced by an object in a gravitational field. The gravitational force is a force, measured in newtons, while the acceleration due to gravity is a measure of how quickly an object accelerates towards the Earth, typically around 9.81 m/s2.
At what height in kilometers above the surface of the Earth is there a 4% difference between the approximate gravitational force mg and the actual gravitational force on an object
The gravitational field due to the stone is much weaker than that due to Earth because of the difference in mass between the two objects. The strength of the gravitational field depends on the mass of the object creating it, so Earth's gravitational field is much stronger due to its significantly larger mass compared to the stone.
The electrical field force acts between two charges, in the same way that the gravitational field force acts between two masses.
The relationship between static acceleration and an object's position in a gravitational field is that the static acceleration of an object in a gravitational field is constant and does not change with the object's position. This means that the object will experience the same acceleration due to gravity regardless of where it is located within the gravitational field.
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.
A body A of mass m is placed in the gravitational field of a body B of mass M. The gravitational potential of body B at a point in the field is the work done is bringing unit mass from infinity to that point and is independent of body A. On the other hand, the gravitational potential energy of body A is the energy possessed by it due to its position in the field. In fact, Gravitational potential energy = mass of body(A) x gravitational potential
Gravitational potential energy is the energy stored in an object due to its position in a gravitational field, while gravitational force is the force of attraction between two objects due to their masses. Gravitational potential energy is related to the height of an object, while gravitational force depends on the masses of the objects and the distance between them.
The gravitational force (Fg) is the force of attraction between two objects due to their masses, while the acceleration due to gravity (g) is the acceleration experienced by an object in a gravitational field. The gravitational force is a force, measured in newtons, while the acceleration due to gravity is a measure of how quickly an object accelerates towards the Earth, typically around 9.81 m/s2.
No. Gravitational force is the pull an object experience from gravity. Gravitational energy is the energy an object has from its position in a gravitational field. An object moving up in a gravitational field gains gravitational energy.
Gravitational field mass, also known as gravitational mass, refers to the property of an object that determines the strength of its gravitational attraction to other objects. It is the mass that appears in Newton's law of gravitation, which describes the force of attraction between two objects based on their masses and the distance between them.
Chemical energy is potential energy stored within the bonds of chemical compounds, which can be released during a chemical reaction. Gravitational energy is potential energy associated with an object's position in a gravitational field, which is determined by its height above a reference point.
differentiate between field experiment and survey and advantages