water pressure which is effected by gravitational force and buoyancy
fiction
When an object is floating in a fluid, two forces are acting on it: the buoyant force, which pushes the object upward and is equal to the weight of the fluid displaced by the object; and the gravitational force, which pulls the object downward. When these two forces are equal, the object remains in equilibrium and floats.
The two forces acting on a hot air balloon that is floating are buoyant force, which pushes the balloon up, and gravity, which pulls the balloon down. These two forces are in equilibrium, allowing the balloon to float at a constant altitude.
Gravity and Buoyancy
opposite
When an object is floating in water, two forces are acting on it: buoyant force and gravitational force. The buoyant force is an upward force exerted by the water that supports the weight of the object, keeping it afloat. The gravitational force pulls the object downward towards the center of the Earth. The object remains in equilibrium when these two forces are balanced, leading to a state of floating.
Two forces that affect us when we float in water are buoyancy, which pushes us upwards due to the displacement of water, and gravity, which pulls us downwards. The interaction between these two forces determines our stability and position while floating.
Competition and self-interest are two forces in free market economies.
The magnitude (size) AND the direction, of all the forces, all affect their combination.
The magnitude (size) AND the direction, of all the forces, all affect their combination.
You can clean it upand You can also impose a fine on anyone who threw rubbish
For two bodies in physical contact to remain in equilibrium, the condition necessary is that the sum of the forces acting on each body must be equal and opposite.