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.
The two forces that act are the weight of the boat (mass times gravity) and the upthrust of the water. If the boat is in equilibrium on the water (e.g. not sinking) then upthrust will equal weight
The forces that act on a stationary object are typically the gravitational force pulling the object down and the normal force exerted by the surface supporting the object.
Forces on a boat can be either balanced or unbalanced. In a balanced force situation, the forces acting on the boat are equal in magnitude and opposite in direction, resulting in no change in the boat's motion. In an unbalanced force situation, there is a net force acting on the boat, leading to acceleration or deceleration of the boat.
When an object is stationary, the forces acting on it are balanced. These forces could include gravitational force, normal force, frictional force, and any other external forces. The net force on the object is zero, resulting in no acceleration and the object remaining at rest.
If the object is not moving, then the only thing you can be sure of is that since it's not accelerating, all of the forces acting on it add up to zero. Just the fact that it's not moving is not enough information to tell you that there are no forces on it.
The two forces that act are the weight of the boat (mass times gravity) and the upthrust of the water. If the boat is in equilibrium on the water (e.g. not sinking) then upthrust will equal weight
None. There is no effect on a stationary object.
what are the forces of a speed boat
The forces actin gon a rubber duck are gravity, upthurst, weight and normal forces
The forces that act on a stationary object are typically the gravitational force pulling the object down and the normal force exerted by the surface supporting the object.
Forces on a boat can be either balanced or unbalanced. In a balanced force situation, the forces acting on the boat are equal in magnitude and opposite in direction, resulting in no change in the boat's motion. In an unbalanced force situation, there is a net force acting on the boat, leading to acceleration or deceleration of the boat.
When an object is stationary, the forces acting on it are balanced. These forces could include gravitational force, normal force, frictional force, and any other external forces. The net force on the object is zero, resulting in no acceleration and the object remaining at rest.
0 velocity 0 acceleration The forces on the object are balanced: it is in equilibrium. (The forces are balanced on any object with 0 acceleration, even if it is moving.)
If the object is not moving, then the only thing you can be sure of is that since it's not accelerating, all of the forces acting on it add up to zero. Just the fact that it's not moving is not enough information to tell you that there are no forces on it.
When a car is stationary, the main forces acting on it are the force of gravity pulling it down, the normal force from the ground pushing it up, and potentially frictional forces on the tires and air resistance. In this situation, the net force on the car is typically zero, resulting in the car remaining stationary.
Air ResistanceGravityDrag
because it is just like that ok