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How can you justify that gravatational force is an example of conservative force?
Gravitational force is a conservative force because it only depends on the positions of the objects and not on the path taken between them. The work done by gravitational force in moving an object along a closed loop is zero, indicating that the force is path-independent. This means that the total mechanical energy (kinetic plus potential) of the system remains constant.
What are some conservative forces?
Some examples of conservative forces include gravitational force, electromagnetic force, and elastic force. These forces depend only on the positions of the objects and not on the paths taken between them. This means that the work done by a conservative force on an object moving between two points is independent of the path taken.
What are the examples of conservative forces?
Examples of conservative forces include gravity, electromagnetic force, and spring force. These forces depend only on the initial and final positions of an object and do not dissipate energy as the object moves along a path.
Which of the following is considered to be a conservative force?
Air resistance
How does the concept of the gravitational force being a conservative force impact the study of celestial mechanics?
The concept of gravitational force being a conservative force greatly influences the study of celestial mechanics. It allows for the conservation of energy and angular momentum in celestial systems, making it easier to predict the motion of celestial bodies over time. This principle helps scientists understand the stability of orbits, the formation of planetary systems, and the dynamics of galaxies.
What are examples of conservative forces?
gravitational force
How can you justify that gravatational force is an example of conservative force?
Gravitational force is a conservative force because it only depends on the positions of the objects and not on the path taken between them. The work done by gravitational force in moving an object along a closed loop is zero, indicating that the force is path-independent. This means that the total mechanical energy (kinetic plus potential) of the system remains constant.
What are some conservative forces?
Some examples of conservative forces include gravitational force, electromagnetic force, and elastic force. These forces depend only on the positions of the objects and not on the paths taken between them. This means that the work done by a conservative force on an object moving between two points is independent of the path taken.
What are the examples of conservative forces?
Examples of conservative forces include gravity, electromagnetic force, and spring force. These forces depend only on the initial and final positions of an object and do not dissipate energy as the object moves along a path.
Which of the following is considered to be a conservative force?
Air resistance
How does the concept of the gravitational force being a conservative force impact the study of celestial mechanics?
The concept of gravitational force being a conservative force greatly influences the study of celestial mechanics. It allows for the conservation of energy and angular momentum in celestial systems, making it easier to predict the motion of celestial bodies over time. This principle helps scientists understand the stability of orbits, the formation of planetary systems, and the dynamics of galaxies.
Is the electric force a conservative force?
Yes, the electric force is a conservative force.
What does energy have to do with magnet?
Whenever there is a certain type of force, one that fulfills certain conditions (called a "conservative force") - such as a magnetic field, an electric field, or a gravitational field - there is an associated potential energy.
Does a vacuum space have gravitational force?
No, there is no mass there to have any gravitational force.
Is considered to be a conservative force?
A force is conservative if the amount of work it does going from one point to another doesn't depend on the route it takes. That also means that if it ends up at the same point where it started ... no matter where it went while it was out wandering around ... the total work it does around the closed path is zero. The gravitational and electrostatic forces are conservative forces.
In which direction will the drag force act if the gravitational force is less than the buoyant force?
If the gravitational force is less than the buoyant force, the drag force will act in the opposite direction of the gravitational force.
What are conservative forces?
Gravitational Forces,Magnetic Forces,Spring Forces,Electric Force....... They do not depend on the path followed,they depend on initial and final point of work.
