How do forces from an elastic car account for it's movement
When a car is in motion, the main forces acting on it are propulsion from the engine, friction between the tires and the road, air resistance, and gravity pulling the car downward. These forces work together to determine the car's speed, direction, and overall movement.
If a car (or any object, for that matter) accelerates, that is, if it velocity changes, then there are unbalanced forces. If the object doesn't accelerate - for example, if it remains on the spot - then the forces are balanced.
Yes, there is a small magnetic force in a car moving due to the electrical currents flowing through the wires in the car's electronics. The movement of the car also generates a magnetic field. However, these magnetic forces are typically very weak and do not have significant effects on the car or its surroundings.
When two forces are applied to a car in an effort to move it, the car will move in the direction of the greater force. The car's motion is determined by the difference between the two forces acting on it.
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.
When a car is in motion, the main forces acting on it are propulsion from the engine, friction between the tires and the road, air resistance, and gravity pulling the car downward. These forces work together to determine the car's speed, direction, and overall movement.
If a car (or any object, for that matter) accelerates, that is, if it velocity changes, then there are unbalanced forces. If the object doesn't accelerate - for example, if it remains on the spot - then the forces are balanced.
THERE ARE TWO FORCES ACTING ON CHASIS OF CAR A . static which involvs just weight of the various loaded components and parts B . dynamic which involves forces due to road bumps through shock absorbers , engine torque actin as inertial forces , aerodynamic forces by air density and area of car encountered by it . but remember take into account forces in lateral, longitudnal as well as transverse direction
Elastic cars work by converting elastic potential energy into kinetic energy. The most potential energy, the more kinetic energy.
None. It is at rest. No forces.
A. Philip Randolph - He was the head of the Brotherhood of Sleeping Car Porters
Yes, there is a small magnetic force in a car moving due to the electrical currents flowing through the wires in the car's electronics. The movement of the car also generates a magnetic field. However, these magnetic forces are typically very weak and do not have significant effects on the car or its surroundings.
When two forces are applied to a car in an effort to move it, the car will move in the direction of the greater force. The car's motion is determined by the difference between the two forces acting on it.
very thin sheets of rubber are elastic
Friction
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.
When a car is travelling at a steady speed, the driving force from the engine is equal to the total resistive forces acting against the car, such as air resistance and friction. This balance of forces allows the car to maintain a constant velocity without accelerating or decelerating.