When a pram is stationary, the main forces acting on it are the gravitational force pulling it downward and the normal force pushing it upward from the ground. These two forces balance each other out, resulting in a net force of zero and causing the pram to remain at rest.
Yes, it is possible for an object to not be in motion and still have forces acting on it. This situation could occur if the forces acting on the object are balanced, resulting in a state of equilibrium where there is no net force causing motion.
When pushing a trolley, the main forces acting on it are the force of friction between the wheels and the ground, the force of gravity acting downward, and the normal force exerted upward by the ground on the trolley to support its weight. Additionally, if the trolley is on an incline, there will be a component of the gravitational force acting parallel to the incline.
The forces acting on a stationary boat in still water are gravity acting downwards, buoyancy acting upwards, and drag acting to oppose any external forces like wind or current. These forces are balanced when the boat is stationary.
Things stand still when the forces acting on them are balanced, preventing any movement. This equilibrium can be achieved through a combination of gravitational, frictional, and inertial forces. If an object is not experiencing any external forces or if the forces acting on it cancel each other out, it will remain at rest.
When a plane is still on the ground, the main forces acting on it are weight and normal force. Weight is the force due to gravity acting downward, while the normal force is the force exerted by the ground perpendicular to the plane to support its weight. Additionally, there may be frictional forces acting on the wheels to prevent the plane from moving.
gravity
The forces acting on a pram are typically gravity pulling it downward and normal force pushing it upward, as well as frictional forces when it's in contact with the ground. Additionally, there may be external forces from pushing or pulling the pram.
The main forces acting on the pram will be the force the person pushing the pram exerts on it, the friction against the ground and air resistance. When the pram is speeding up the force the pusher exerts will be larger than the combined force of the air resistance and the friction against the ground. When the pram is moving at a constant speed the forces acting on it will be balanced I.e. pushing force= air resistance+friction. When the pram is slowing down the air resistance and the friction will be greater than the pushing force.
Yes, it is possible for an object to not be in motion and still have forces acting on it. This situation could occur if the forces acting on the object are balanced, resulting in a state of equilibrium where there is no net force causing motion.
When pushing a trolley, the main forces acting on it are the force of friction between the wheels and the ground, the force of gravity acting downward, and the normal force exerted upward by the ground on the trolley to support its weight. Additionally, if the trolley is on an incline, there will be a component of the gravitational force acting parallel to the incline.
The forces acting on a stationary boat in still water are gravity acting downwards, buoyancy acting upwards, and drag acting to oppose any external forces like wind or current. These forces are balanced when the boat is stationary.
An object with balanced forces acting on it is still. An object with unbalanced forces acting on them moves at an non constant velocity. It is possible for an object to have balanced forces acting on it and yet move in a vacuum.
Yes, the object can have equal forces acting in opposite directions: 5N ->[]<- 5N The object will have forces acting upon it, but will not move.
An object with balanced forces acting on it is still. An object with unbalanced forces acting on them moves at an non constant velocity. It is possible for an object to have balanced forces acting on it and yet move in a vacuum.
i have a blue pedigree pram still in good condishoin how much will i get 4 it
Water and wind.
Things stand still when the forces acting on them are balanced, preventing any movement. This equilibrium can be achieved through a combination of gravitational, frictional, and inertial forces. If an object is not experiencing any external forces or if the forces acting on it cancel each other out, it will remain at rest.