# Which is greater the force of the bug or the windshield?

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Which is greater: the force of the bug on the windshield, or the force of the windshield on the bug? The magnitude of these forces are equal, though an illusion is created that the windshield exerts a greater force on the bug, simply because the bug has a tiny mass whereas the car has a great mass.

## Which force is greater the force on the bug or the force on the windshield?

What about a bug hitting a car windshield? The force of the bug on the windshield is equal to the force of the windshield on the bug, only in the opposite direction.

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## Which force is greater when a bug hits a windshield?

Newton’s laws of motion require an equal and opposite force. The bug hits the windshield with the same magnitude of force as the windshield hits the bug, just in opposing directions.

## Which is greater the force on the bug or the force on the bus?

The force of impact splatters the unfortunate bug over the windshield. Which is greater, the force on the bug or the force on the bus? Yes. Explanation:However they push, the result is equal-magnitude forces on equal masses, which produces equal accelerations; therefore, there are equal changes in speed.

## Why is the damage so much greater to the bug than the car?

Since the collision time duration is very small while the momentum change of the bug is very big, the force is very very large on the bug. The poor bug’s body simply cannot withstand that force and splats. Of course, the exact same force is exerted on the car from Newton’s 3rd law.

## Which experiences a larger acceleration the bug or the car?

The mass of the bug is less so therefore the acceleration of the bug (change in direction and speed) is greater for the bug than your car.

## When an insect hits a car each of them exert the same force?

According to third law of motion – For every action, there is an equal and opposite reaction. So, the force exerted by car on insect will be same as force exerted by insect on car.

## When an insect hits the windshield of a moving car?

The windshield exerts a force of 1N on the bug and the direction that the car is moving. When a bug hits the windshield of a moving car, why does the bug get “squished” while the car suffers no significant damage? The windshield exerts a force of 1N on the bug and the direction that the car is moving.

## Why do bugs hit your windshield?

This is due to the “physics of airflow” around the vehicle. They either wind up getting trapped in the airflow or flying above the car. In addition, the insects’ flight patterns and behavior also influence how many of them will hit the windshield.

## When a bug collides with a windshield the change of momentum of the bug is?

The total momentum of the system bug-car stays the same during the collision, so the change in the car’s momentum is equal and opposite to the change in the bug’s momentum. Since the car’s mass is much higher than the bug’s mass, the bug’s velocity will change much more than the car’s velocity.

## What is the reaction force of a bus hits a bug?

In the interaction between the bus and the bug, we can call the force “bus pushes bug” the action force. Then the force “bug pushes bus” is the reaction force. Since these forces are a Newton’s Third Law action/reaction force pair, they are exactly the same size.

## When a bus collides with a bug head on which of the two feel the greater acceleration in the collision?

The effects of the two forces are different on the two bodies in the following three equivalent ways. The magnitude of the acceleration induced on the bug is much larger than the magnitude of acceleration induced on the bus because the mass of the bus is much larger than the mass of the bug.

## Why is the acceleration of the bug so much larger than the acceleration of the bus?

b. A bug crashes into a high speed bus. The force experienced by the bug is_Paval te (less than, equal to, greater than) the force experienced by the bus. The resulting abceleration of the bug is Greater tharfless than, equal to greater than the resulting acceleration of the bus.

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## When you hit a baseball with your bat the force on the ball has the same magnitude as the force?

Explanation: According to Newton’s third law, the force exerted by the bat hitting the ball will be equal in magnitude but opposite in direction of the force the ball exerts on the bat. Generally, your arms are stiff when you hit the ball forward, so you will not feel the bat “recoiling”.

## What happens to an object if the sum of the forces acting on it is greater than zero?

If it is initially in motion, then it will continue to move at the same velocity. Newton’s first law states that when the vector sum of all forces acting on an object (the net force) is zero, the object is in equilibrium. … If it is initially in motion, it continues to move with constant velocity.

## How does the acceleration of the car compare with the acceleration of the truck during the collision explain?

As the mass of truck is much more,it will experience very less acceleration(deceleration). hence the impact on car would be much larger than the impact on truck due to collision. as per newton’s third law they both will experience equal and opposite force during the collision.