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Friction is a push force. When one object pushes one direction on an object the other object pushes the opposite direction. The harder an object is pushed against another the more friction there is.
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.
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Not quite sure what you mean with "meaning"; it simply states that if an object "A" pushes (for example) on an object "B", then there is invariably also a push back, from object "B" to object "A". This law is related to conservation of momentum.
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It will cause acceleration, and increase its velocity.
Friction will always act in the direction opposite of the relativistic motion of two objects. If object A is moving to the right on object B, then object A will experience the friction to the left. However, object B will be moving to the left on object A and will therefore experience the friction acting towards the right.
Friction is a push force. When one object pushes one direction on an object the other object pushes the opposite direction. The harder an object is pushed against another the more friction there is.
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 we walk on the ground, our feet pushes the ground in backward direction, as a reaction ground pushes us in forward direction hence we can walk on the ground.
It is an informal statement of Newton's Third Law of motion. It means that if an object "A" pushes against an object "B", then object "B" will push back against object "A". This second force will be the same magnitude as the first, but in an opposite direction.
Friction is a force that opposes motion. As you drive a car along an expressway, the friction from air pushes back against your direction of motion. Also, the friction between your tires and the road (rolling friction) pushes back in the opposite direction of your motion.
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How do you determine the net force on an object? Decide which direction is positive motion. Motion is the opposite direction is negative The forces must in a straight line!! Add all the forces in straight line acting on the object. Example To the right is positive A 5 N force pushes a 10 Kg object to the right. A 2 N force pushes the same 10 Kg object to the left. The 5 N forces is positive and the 2N force is negative Net force = +5 N - 2 N = + 3 N To determine the acceleration use Newton's 2nd law of motion F = Mass * acceleration + 3 N = 10 Kg * a a = 10 Kg ÷ + 3 N a = +3 ⅓ m/s^2 The positive sign means the object is accelerating to the right!! If the forces are not linear, you must use vectors, but the net force in any direction is still the sum of the vectors in that direction.
well...when forces act on an object it creates energy that makes objects move. For example:if a ball sits on a table and someone pushes it will move.AnswerDepends on the direction and strength of the force. As a general rule, a force works to overcome inertia (keep in mind that according to Newton's laws of motion, inertia can be either at rest or in motion as long as the relative velocity remains constant). So it can either slow down, speed up or change direction.
Newton's Third Law of Motion For every action, there is an equal and opposite reaction. The object pushes downward on the surface, the surface pushes upward on the object. When the net force is zero, the object comes to rest.
Newton's law of Inertia states that "An object at rest will stay at rest, forever, as long as nothing pushes or pulls on it. An object in motion will stay in motion, traveling in a straight line, forever, until something pushes or pulls on it". The formula to express this is " F=ma", Force equals mass".