Yes, an internal force can cause acceleration in a body.
"acceleration"
Acceleration can be produced in a body without applying any external force through an internal force, such as tension in a string or a normal force. For example, when an object is swung in a circle on a string, the tension in the string provides the centripetal force that causes the acceleration towards the center of the circle.
Yes, force can change the magnitude of a body.
Yes, a single force applied to a body can cause both its translation (linear motion) and rotational motion simultaneously if the force is applied off-center or at a distance from the body's center of mass. This results in a combination of linear acceleration and angular acceleration.
Changes in force can result in the acceleration or deceleration of a body, leading to changes in its speed and direction of motion. An increase in force can cause an object to speed up, while a decrease in force can cause it to slow down or stop. Too much force can also lead to deformation or fracture of the body depending on its material properties.
"acceleration"
Force! Acceleration a=f/m, the force F changes the acceleration.
Acceleration can be produced in a body without applying any external force through an internal force, such as tension in a string or a normal force. For example, when an object is swung in a circle on a string, the tension in the string provides the centripetal force that causes the acceleration towards the center of the circle.
force acting on unit mass of body is the acceleration of that body.
Yes, force can change the magnitude of a body.
The answer to the question is in the formula, P = mf, where P = force applied, m = mass of the body and f = acceleration of the body. It also depends on the direction of the force. If the force is towards the motion of the body, the acceleration of the body will increase. If in case the force is acting against the direction of motion of the body, the acceleration will decrease.
Due to friction velocity of a body gets reduced, reduction in velocity causes change in velocity. This change in velocity leads to production of acceleration.(Because only acceleration can produce change in velocity either its direction or its magnitiude). And only a force can cause the acceleration hence friction is a force.
Yes, a single force applied to a body can cause both its translation (linear motion) and rotational motion simultaneously if the force is applied off-center or at a distance from the body's center of mass. This results in a combination of linear acceleration and angular acceleration.
Changes in force can result in the acceleration or deceleration of a body, leading to changes in its speed and direction of motion. An increase in force can cause an object to speed up, while a decrease in force can cause it to slow down or stop. Too much force can also lead to deformation or fracture of the body depending on its material properties.
If the acceleration of a body is greater than the acceleration due to gravity, the body will start moving upward against the force of gravity. It may continue to accelerate if the net force acting on the body is greater than the force of gravity.
Friction.Called inertia. To accelerate a body the force is mass times acceleration. No force = no acceleration. People say " the force is opposed by the massacceleration"
Acceleration is in the same direction as the applied force.