forces of body depends on the path it is moving
for example if it is moving in straight path it under go forces like
frictional forces and forces applied on it
if the body is moving in slant path it has frictional force,acceleration due to to gravity(which acts down wards)
It can be said that the net force applied on the object is zero or that the object is in translational equilibrium. Keep in mind that these terms can also be applied if the object is moving at a constant velocity.
Yes, but an object with net force of zero may still be moving. The net force is zero if the object is not accelerating.
An object which is not moving is not experiencing any acceleration, other than the acceleration due to gravity, which, along with mass gives it its weight. The upward force (normal force) acting on the object is equal to but opposite to its weight, and all of the forces acting on the objects are in equilibrium so the net force is zero Newtons.
Yes, balancing the forces acting on an object involves ensuring that the sum of all forces is zero, which means there is no net force acting on the object. This equilibrium condition results in the object either remaining at rest or moving at a constant velocity.
If there is no net force acting on an object then the movement of the object doesn't change. If it is sitting still, then it remains sitting still. If it is moving, then it continues moving at the same speed in the same direction.
Doubling the force acting on a moving object would cause the object to accelerate at a faster rate, leading to an increase in its speed. This is in accordance with Newton's second law of motion, which states that the acceleration of an object is directly proportional to the force acting on it.
An object in equilibrium is not moving, as all the forces acting on the object are balanced. If the object were to be in motion, it would no longer be in equilibrium as there would be an unbalanced force acting on it.
No, centripetal force is not acting when a body is moving in a straight line. Centripetal force is required to keep an object moving in a curved path.
the 2 things you should describe about a force that acts on an object is the size and direction
If the force acting upon an object are balanced then the object must not be accelerating
The result of a force acting on a moving object over time is a change in the object's velocity. This change can be an increase or decrease in speed, a change in direction, or both, depending on the magnitude and direction of the force.
Because F=ma, If an object is moving at a constant velocity(speed), then there can be no net force acting on the object. This means that there is a dispersive force i.e Drag or friction acting on the object equal to 2 but in the opposite direction to motion.
Yes, an object can be moving at a constant velocity (i.e., moving with no acceleration) and have a net force of zero. This occurs when the forces acting on the object are balanced, such as when an object is in equilibrium.
If the force acting on an object moving in a circle is removed, the object will continue to move in a straight line tangent to the circle at the point where the force was removed, due to its inertia. This is governed by Newton's first law of motion.
If the object is moving in a straight line, then the net force on it is zero. If the object is not moving in a straight path, then there is some non-zero net force acting on it even if its speed is constant. We don't have enough information to describe the magnitude or direction of the force.
If there is no force acting on an object, it will remain in its state of motion (either at rest or moving at a constant velocity) according to Newton's first law of motion.
The common term used to describe the force of gravity on an object is its weight. Weight is the measure of the force of gravity acting on an object due to its mass.