1) A truck that is stopped on the road has to be pushed hard to get into motion.
When the truck is moving a little, it can be moved faster with a smaller /less
push. Why?
Answers
Answer:
here your answer bro
Explanation:
According to the third law of motion when we push an object, the object pushes us back with an equal and opposite force. These two forces are called as action-reaction pair.
Friction and force of truck
When we push a truck parked along the roadside, then the road implements a static friction force in the opposite direction of force implemented on the truck to oppose the motion of the truck. The static friction is flexible in nature, hence, the road allows only the required amount of friction force to keep the truck at rest. If we apply more force, the road applies more friction force. Hence the friction force cancels out the force applied. In short we can explain it as follows
The truck has a large mass therefore the static friction between the truck and the road is very high.
To move the car, we have to apply force more than static friction.
Therefore, when someone pushes the truck and the truck does not move,
Hence the applied force gets cancel by the frictional force which is equal in magnitude but in opposite direction.
Answer
The logic is that Action and Reaction always act on different bodies, so they cannot cancel each other. When we push a massive truck, the force of friction between its tyres and the road is very large and so the truck does not move. The force of friction cancel the force applied by person push. So student justification is correct
Answer:
because tje weight of the truck and static friction between the road and the tyres of truck...when its moving little friction is less and is rolling friction so less force is required..