whith a blood alcohol level at .15%, the relative risk of causing a collision is greater by mearly?
No
0.70 is greater than 0.045
39.21 is greater than 39.021. More specifically, it is 0.189 greater.
0.95 is greater than 0.455
0.49 is greater than 0.08
At night
The mass of an object affects its collision by determining how much momentum it has. In a collision, the momentum of each object before and after the collision must be conserved. Objects with a greater mass will have more momentum, which can result in different outcomes during a collision, such as how the objects move or if they bounce off each other.
The impact of a collision at 60 mph is four times greater than at 30 mph.
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.
alcohol has a greater volume because when you combine the two substances together water will desolve
Alcohol
Yes, a reaction may occur if the energy of the collision is equal to or greater than the activation energy. This is because the collision provides enough energy to overcome the activation energy barrier and initiate the reaction.
If your blood alcohol content is 10% your chances of being in an accident are effectively zero. You would be dead. DAmn u mate your lucky your aload to go out and get 1o percent drunk where do your parents find ya
A super-elastic collision occurs when the kinetic energy after the collision is greater than the kinetic energy before the collision. An example is two perfectly elastic balls colliding in space with no external forces acting on them.
yes -taken with alcohol or depress. drugs effects will be greater.
yes -taken with alcohol or depress. drugs effects will be greater.
Not necessarily. The total momentum of a system of objects is conserved unless external forces are present. In a collision involving three objects, the total momentum before the collision could be equal to, greater than, or less than the total momentum after the collision, depending on the specific circumstances of the collision.