cohesion: the intermolecular attraction between like molecules
gravitational force
The gravitational force is a force between any two masses (so, basically, any object). The force depends on the mass and on the distance. More mass --> more force; greater distance --> less force.
One good example are the fact that when you stand up, there is a force ... known as your "weight" ... that holds you down to the floor. That force is nothing but the force of mutual gravitational attraction between you and the earth.
yes.. it does.. and that force is called gravitational force.if anyone wants to overcome the force than a person has to run at a speed of 11.2km/sec...which is known as escape velocity.
Same as anywhere else. You can use the formula F = ma (force equals mass times acceleration) and solve for acceleration (a = F/m). Force might be gravitation, in specific cases - or the thrust from the rocket engine. Of course, SOME data must be known to figure out acceleration.Same as anywhere else. You can use the formula F = ma (force equals mass times acceleration) and solve for acceleration (a = F/m). Force might be gravitation, in specific cases - or the thrust from the rocket engine. Of course, SOME data must be known to figure out acceleration.Same as anywhere else. You can use the formula F = ma (force equals mass times acceleration) and solve for acceleration (a = F/m). Force might be gravitation, in specific cases - or the thrust from the rocket engine. Of course, SOME data must be known to figure out acceleration.Same as anywhere else. You can use the formula F = ma (force equals mass times acceleration) and solve for acceleration (a = F/m). Force might be gravitation, in specific cases - or the thrust from the rocket engine. Of course, SOME data must be known to figure out acceleration.
The force that attracts other objects toward the Earth is called Earth's gravitational pull. The average strength of Earth's gravity, known as standard gravity, is 9.80665 m/s2
In case of electric force there are both repulsive and attractive. But in case of gravitational force, only attractive force. Electrical force between electric charges. Gravitational force between masses. In electric force we use a constant known as permittivity of the medium. But in gravitational force a universal constant known as Gravitational constant is used. Electrical force is very much greater than gravitational force.
Cohesive force is the attractive force between like molecules. Cohesive forces are also known as intermolecular forces and can also be repulsion forces.
Newton promulgated many mathematical expressions describing physical processes that came to be known as "Laws". One of the best known is his "law" of universal gravitation. It says that the gravitational force between every two objects is proportional to the product of their masses, inversely proportional to the square of the distance between them, always attractive, and exerts equally on both objects.
There are no known ways to affect the force of gravity. If the masses increase or the distance between the masses decreases the resultant force will increase (and vice versa).
This is an intermolecular attraction of water molecules, associated by hydrogen bonds.
The gravitational force is a force between any two masses (so, basically, any object). The force depends on the mass and on the distance. More mass --> more force; greater distance --> less force.
Gravitational force depends on the masses involved, and on the distance. There is no known way to "block" the gravitational force.
It is the same general principle as in many other situations. Masses attract one another, through a force known as gravity.It is the same general principle as in many other situations. Masses attract one another, through a force known as gravity.It is the same general principle as in many other situations. Masses attract one another, through a force known as gravity.It is the same general principle as in many other situations. Masses attract one another, through a force known as gravity.
Yes it is (at least all known objects). According to Newton's law of gravity, the size of this force between two objects is proportional to the product of their masses divided by the square of the distance between them.
There are four fundamental forces that can, depending on circumstances, pull objects towards each other. In order of decreasing strength... The Strong Atomic Force binds protons and neutrons together in the nucleus of the atom. Release of the Strong Atomic Force is the energy behind the Sun, nuclear power, and nuclear bombs. The Electromagnetic Force causes charged particles, such as electrons and protons, to interact with each other. Like charges repel, and unlike charges attract. The Electromagnetic Force is responsible for nearly every phenomenon that occurs, with the exception of Gravity. The Electromagnetic Force, in the form of both magnetism and electricity, is used in nearly every conversion of power that we use. The Weak Atomic Force creates radioactive decay and aids in the fusion process. Gravity is the force of attraction between any two objects, such as the Earth and the Moon.
A true scale uses known masses to balance out the forces. Think of the simplest system as a see saw type device. With nothing on it, the arm is level. Put the object to be measured on one side, and start putting known masses on the other till it is level. So the force down on the unknown object is m*g. Then on the other side you have (known masses)*g. Same force means the system is in equilibrium. Move to the Moon, and you still have the same forces on both sides. More sophisticate balance scales use leverage, so that the force from known masses is multiplied by the known arm length. Commonly seen in a scale at the doctor's office, where they move the weights back and forth, until it balances.
No. You can think of 'mass' as the amount of material in an object.The strength of the gravitational forces between two objects depends onthe masses of both objects.