"Normal" forces push up on a still car. In this case, normal forces are equal in magnitude but opposite in direction to the gravitational forces pushing down on the still car.
It's weight and the reaction force from it's weight. Hope that helps!
How do forces from an elastic car account for it's movement
The forces that slow down a racing car are:GravityAir ResistanceFrictionAerodynamic Downforcethat's the 4 forces
If the forces weren't balanced, then the car would be (de) accelerating, thus the forces must be balanced.
"Normal" forces push up on a still car. In this case, normal forces are equal in magnitude but opposite in direction to the gravitational forces pushing down on the still car.
on a still car the weight force is down, and is balanced with the reaction force (working upwards). friction of forward and balanced with drag - backwards. ;)
It's weight and the reaction force from it's weight. Hope that helps!
None. It is at rest. No forces.
How do forces from an elastic car account for it's movement
Of course. When your car is standing still, its velocity, acceleration, and momentum vectors, and the horizontal components of forces on it, are zero.
Not that i have found. i don't tell them I'm in the forces but rather the job i do in the forces (mechanic) this tends to lower it a bit. You are eligible for USAA insurance and that is usually significantly lower but you still need to shop around.
5 kg Car moving 10 m/s west+10 Newton force pushing car west-10 Newton force pushing car east Sum of the forces = Mass × acceleration Sum of the forces = (+10 Newton) + (-10 Newton) Sum of the forces = 0 Mass = 5 Kg Sum of the forces = 0 5 Kg × acceleration =0 acceleration =0 If acceleration = 0, the velocity is constant, not changing. If the car is sitting still, it will remain still. If the car is moving 10 m/s west, it will remain moving 10 m/s west. If 2 weight lifters of equal strength push with the same force on the front and back of the car, what will happen?
The forces that slow down a racing car are:GravityAir ResistanceFrictionAerodynamic Downforcethat's the 4 forces
If the forces weren't balanced, then the car would be (de) accelerating, thus the forces must be balanced.
Friction
The would be balanced forces.