Thrust can affect a car in two basic ways.
Depends each component, but as it is still (or constant velocity) the net force is 0 newtons.
45,000 N OR 4.5kN in the thrust of a car.
1000000
Tough. An action force is normally the aggressor, acting first, with a clear owner (for example, a human, an animal, an engine, etc). The reaction force is normally passive (only acts when being forced to) and hidden (invisible), with no clear ownership. The reaction force can be created artificially to explain the situation. An example of a reaction force: an apple is sitting still on a table. We know the apple will fall if the table is not there. The action force will be the gravitational force. We can explain why the apple does not fall to the floor by 'assigning' an invisible force by the table that is equal and opposite to the gravitational force. Otherwise, Newton's 2nd and 3rd laws of motion would have been violated.
A good example is a car driving down the road. The car may be accelerating at 30km/s2 and have a mass of 1800 kg. Then the car runs into a wall. The force of the impact can then be calculated at 54,000 N (Newtons). Other examples include a punch, a running person, or a ball that is thrown.
An outside force, gravity, pulls the car down the ramp building up speed. At the bottom of the ramp law 1 kicks in. The car continues to move in a straight line.
friction is the reaction to motion
car weight: 1300 kg - 13000 N tire-asphalt friction = 0,15cm Tire radius = 30cm F= 0.15*13000/30 = 6,5 N
1000000
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. ;)
Weight is measured in Newtons, not grams - which is a measure of mass.
There are forces acting on the car. They are just equal to the force of the car acting on the force. In example, gravity is acting on the car, but the car is pushing back equally. Therefore, the car doesn't move.
It's weight and the reaction force from it's weight. Hope that helps!
On Earth, 1,500 kg of mass weighs 14,710 newtons.
F=ma, Force=(mass)(Accleration), (3)(1250)-(3)(200)= 3,150 Newtons
There are forces acting on the car. They are just equal to the force of the car acting on the force. In example, gravity is acting on the car, but the car is pushing back equally. Therefore, the car doesn't move.
It is 17,326.4 newtons or 3,898 lbs.
The answer depends on which model. The Granturismo weighs approx 17660 newtons whereas the Levante goes up to 21630 newtons.
Somebody pushing the car; friction slowing down the car; gravity acting on the car (this is especially relevant if the car is going up or down a slope); the engine pushing the car forwards.