Collision potential and closing potential have to do with physics. These terms are in reference to how fast atoms collide with each other and the result of the collision. The faster the atoms are moving the greater the closing potential.
elastic is when the objects in the collision bounce off one another and ENERGY IS CONSERVED.
meets the requirement of unambiguousness in as much as it includes all possible options of things as hazards
A superelastic collision is when the total kinetic energy AFTER a collision is more than the total kinetic energy BEFORE the collision. It's more easily seen when examining the speeds (the masses will normally stay the same) of the two objects. When the speeds are faster AFTER the collision than BEFORE the collision, you likely have a superelastic collision. (Kinetic Energy equals 1/2xMassxSpeed^2) When the speed increases there is a larger kinetic energy. Before you implode (I almost did) from the disregard of the first law of thermodynamics (that energy can't be created or destroyed, only transferred and transformed), the increase in kinetic energy is most likely a conversion of potential energy to kinetic energy. An example would be two carts with springs colliding and creating a supercollision. Since the springs are triggered because of the collision, their potential energy will be converted into kinetic energy and the carts will leave the collision with a larger velocity and thus more kinetic energy.
After the first collision.
Collision potential and closing potential have to do with physics. These terms are in reference to how fast atoms collide with each other and the result of the collision. The faster the atoms are moving the greater the closing potential.
accident
No, the kinetic energy that was present before the collision will become potential energy.
elastic is when the objects in the collision bounce off one another and ENERGY IS CONSERVED.
meets the requirement of unambiguousness in as much as it includes all possible options of things as hazards
The three basic Defensive Driving Course (DDC) collision prevention steps are Recognize, Understand, Act (RUA).Recognize potential hazards.Understand the defense.Act correctly, in time.
A superelastic collision is when the total kinetic energy AFTER a collision is more than the total kinetic energy BEFORE the collision. It's more easily seen when examining the speeds (the masses will normally stay the same) of the two objects. When the speeds are faster AFTER the collision than BEFORE the collision, you likely have a superelastic collision. (Kinetic Energy equals 1/2xMassxSpeed^2) When the speed increases there is a larger kinetic energy. Before you implode (I almost did) from the disregard of the first law of thermodynamics (that energy can't be created or destroyed, only transferred and transformed), the increase in kinetic energy is most likely a conversion of potential energy to kinetic energy. An example would be two carts with springs colliding and creating a supercollision. Since the springs are triggered because of the collision, their potential energy will be converted into kinetic energy and the carts will leave the collision with a larger velocity and thus more kinetic energy.
No energy is lost in such a collision, although kinetic energy is converted into thermal and possibly into potential energy.
The number of legs and body parts
Legally Yes, it is possible, however most insurers will decline to sell you one without the other due to the potential for a negligence claim if it turned out later that you were driving without the required Comprehensive coverage or financial responsibility.
After the first collision.
Collision of the debris is the term that is given to the collision of the stones.