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When an object is moving in a particular direction, air resistance will be acting on the object in the opposite direction to the direction of travel.
when the system is at equilibrium or when you are not moving in any direction at all
the forces acting on the weight lifter and the weights are balanced because the forces are not moving or changing direction.
The object will experience acceleration in the direction of the force.
Physics is related to the moving of masses. Bowling is the moving of MASS ( ball) in the moving of masses (Pins).
Maybe, maybe not. Forces don't happen because you're moving ... forces are what cause you to move. If there are no forces acting on you, then you keep moving whichever way you're moving, and your speed or direction don't change. If there are forces acting on you, then your speed and/or direction can change. If the force is in the same direction that you're already moving, you'll move faster (accelerate). If the force is in the direction opposite to the direction you're moving, then your speed will decrease. Does any of this sound surprising ???
When an object is moving in a particular direction, air resistance will be acting on the object in the opposite direction to the direction of travel.
An object is accelerated in the direction of the net force acting on it, regardless of what direction it may be moving.
when the system is at equilibrium or when you are not moving in any direction at all
the forces acting on the weight lifter and the weights are balanced because the forces are not moving or changing direction.
The object will experience acceleration in the direction of the force.
by analysing the direction of the forces acting on it. If the net force is acting in the opposite direction to the motion, it slows down, if it's in the same direction, it speeds up. If the net force is zero, the object continues moving at a constant velocity
The object will move faster
Physics is related to the moving of masses. Bowling is the moving of MASS ( ball) in the moving of masses (Pins).
During motion in a vertical circle, the force of gravity (weight of the object) is in the same direction as the motion for half the time and in the opposite direction for the rest.For a body moving in a horizontal circle, gravity is acting orthogonally to the motion at all times.During motion in a vertical circle, the force of gravity (weight of the object) is in the same direction as the motion for half the time and in the opposite direction for the rest.For a body moving in a horizontal circle, gravity is acting orthogonally to the motion at all times.During motion in a vertical circle, the force of gravity (weight of the object) is in the same direction as the motion for half the time and in the opposite direction for the rest.For a body moving in a horizontal circle, gravity is acting orthogonally to the motion at all times.During motion in a vertical circle, the force of gravity (weight of the object) is in the same direction as the motion for half the time and in the opposite direction for the rest.For a body moving in a horizontal circle, gravity is acting orthogonally to the motion at all times.
The net force resulting from two forces acting in the same direction is the sum of their magnitudes, and continues to act in the same direction.
When you say 'moving to the left' I presume you mean with a degree of left turn of the steering wheel rather than the car has turned into a left hand direction and is now moving straight ahead in the new direction. In which case, yes, there is force acting on it. Newton's first law dictates that there must be, otherwise it would not continue to change direction. The force comes from the ground which pushes against the tyres.