Gravity and mass are a direct modifier and multiplier and can contribute to a stationary collision point after the collision has taken place. The materials the vehicle is made of can also effect the collision point by which materials effect the mass of the moving object during impact.
More massive objects have more relative inercia.
Momentum will be conserved (it always is conserved). If the cars also move at the same speed, and the collision is inelastic, they will both stop completely.
No, two cars traveling at the same speed will not come to rest at the point of impact in a frontal collision. The impact will cause both cars to decelerate rapidly, but they will continue to move forward after the collision due to the conservation of momentum. The final resting positions will depend on the specific details of the collision.
Total momentum before the collision = total momentum after the collision As a reminder, momentum is the product of velocity and mass.
no it does not thermal energy has no affect on mass
The added mass causes more damage to the chassis. The Chassis has to absorb the kinetic energy. Where the mass is located in the vehicle can cause the car to spin in a certain direction or even flip.
The affect of force on the object during collision is described by a quantity called momentum. It is defined as p = mv where = p is momentum, m = mass of the object and v is velocity.
More massive objects have more relative inercia.
dew point makes the air heavier! :) :) :) :) :);)
Well, I did an experiment in class on this question. We used different amounts lauric acid and it turned out that the freezing point was pretty much the same for all the samples. So, in all, the freezing point does not depend on the mass of a substance.
Momentum will be conserved (it always is conserved). If the cars also move at the same speed, and the collision is inelastic, they will both stop completely.
No, two cars traveling at the same speed will not come to rest at the point of impact in a frontal collision. The impact will cause both cars to decelerate rapidly, but they will continue to move forward after the collision due to the conservation of momentum. The final resting positions will depend on the specific details of the collision.
Total momentum before the collision = total momentum after the collision As a reminder, momentum is the product of velocity and mass.
The higher the mass, the greater the velocity of a vehicle. Upon impact, the vehicle may stop however the momentum of the payload continues. As a result the vehicle with less mass will be damaged more.
The Himalayas were formed by tectonic movement... As the plate that India sits on collided with the continent of Asia the land mass at the point of collision was forced upward creating the Himalayas.
no it does not thermal energy has no affect on mass
When an object is falling in a gravity field, its mass does not affect its acceleration. If under the influence of friction then it takes more energy to accelerate it the larger mass it has, here on Earth. The larger the mass the more potential it has to do work if it is above the surface of the earth than a smaller mass. But in turn, to get it to the higher point more work must be done for a larger mass than a smaller mass.