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If a truck and car have a head on collision upon wc vehicle is the impact force greater?
In a head-on collision between a truck and a car, the impact force experienced by both vehicles is equal due to Newton's Third Law of Motion, which states that for every action, there is an equal and opposite reaction. However, the truck, being significantly larger and heavier, will experience less acceleration and deformation compared to the car, which may sustain greater damage and forces on its occupants. Ultimately, while the forces are equal, the effects of those forces differ based on the vehicles' mass and structure.
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If a bicycle and a massive truck have a head-on collision upon which vehicle is the impact force greater which vehicle undergoes the greater change in its motion?
which vehicle is the impact force greater? the bicycle.which vehicle undergoes the greater change in its motion? the bicycle
What is thee greater the blank of any vehicle the greater the force of impact?
The greater the mass of any vehicle, the greater the force of impact it will generate in a collision. This is because larger masses have more inertia, meaning they are more resistant to changes in motion and will impart more force during a collision.
If a bicycle and a massive truck have a head-on collision upon which vehicle is the impact force greater?
The bicycle would have the greatest impact force.
If a mack truck and a motorcycle have a head on collision upon which vehicle is the impact force greater?
The force is the same on both vehicles. The acceleration produced by the force will be greater on the lower-mass vehicle.
If a Mack truck and Honda Civic have a head-on collision upon which vehicle is the impact force greater?
The force would be equal to both vehicles.
If a cooper mini and a semi-truck have a head-on collision which vehicle experiences th greater force of impact?
mini cooper
In a vehicle collision the longer it takes to dissipate kinetic energy the force of impact?
In a vehicle collision, the force of impact is directly related to the rate at which kinetic energy is dissipated. The longer it takes for the kinetic energy to dissipate, the lower the force of impact experienced by the vehicle occupants. This is why vehicles are designed with crumple zones and other safety features to extend the duration of the collision and reduce the force transmitted to the occupants.
Is it true that the force of impact is what can kill in a motor vehicle collision?
sure
What are three factors that will change your vehicle's force of impact in collision?
Three factors that can affect a vehicle's force of impact in a collision are the speed at which the vehicle is traveling, the weight of the vehicle, and whether or not safety features such as seat belts and airbags are deployed and functioning properly.
In a colission a vecihle that rebounds off the object it strikes experience more force than if it crumples?
In a collision, a vehicle that rebounds off an object experiences more force because the collision is elastic and the force of impact is not absorbed by crumpling. When a vehicle crumples in a collision, the impact force is distributed over a larger area and prolongs the time of impact, reducing the force experienced by the occupants.
In a collision a vehicle that rebounds off the logic is stripe less force on a crumbles assuming the time is the same in both situation?
In a collision, if a vehicle rebounds off without crumpling, it is likely to experience less force compared to a situation where it crumples upon impact. This is because a crumpling vehicle absorbs more of the impact energy and extends the collision time, reducing the force exerted on the vehicle. The rebounding vehicle reflects more of the impact energy, resulting in a shorter collision time and potentially higher forces.
If a light object and a heavy object collide which has a greater impact force?
The heavy object will have a greater impact force because its mass is larger, resulting in a greater resistance to changes in motion. The impact force is directly proportional to the mass of an object and the acceleration it experiences during a collision.
