As buoyant force decreases then the body starts sinking down.
As an object sinks, the buoyant force acting on it decreases because the volume of water displaced by the object also decreases. This reduction in buoyant force allows the object to continue sinking until it reaches equilibrium with the gravitational force acting on it.
If the buoyant force increases, the object in a fluid will experience a greater upward force pushing it towards the surface. This can cause the object to rise higher in the fluid or float more easily. Conversely, if the buoyant force decreases, the object will sink lower in the fluid or have a harder time floating.
As an object sinks deeper into a fluid, the buoyant force decreases because the amount of fluid displaced by the object decreases. The buoyant force is equal to the weight of the fluid displaced by the object, so as the object sinks, it displaces less fluid and experiences less buoyant force.
If force decreases, pressure decreases as well. Pressure is directly proportional to force, so when force decreases, the pressure exerted by the force also decreases.
The buoyant force of air is greatest when an object is fully submerged in the air. This is because the volume of air displaced by the object is at its maximum, creating the greatest upward force. The buoyant force decreases as the object is lifted out of the air, until it reaches a point where the object is no longer displacing enough air to experience a significant buoyant force.
As an object sinks, the buoyant force acting on it decreases because the volume of water displaced by the object also decreases. This reduction in buoyant force allows the object to continue sinking until it reaches equilibrium with the gravitational force acting on it.
If the buoyant force increases, the object in a fluid will experience a greater upward force pushing it towards the surface. This can cause the object to rise higher in the fluid or float more easily. Conversely, if the buoyant force decreases, the object will sink lower in the fluid or have a harder time floating.
As an object sinks deeper into a fluid, the buoyant force decreases because the amount of fluid displaced by the object decreases. The buoyant force is equal to the weight of the fluid displaced by the object, so as the object sinks, it displaces less fluid and experiences less buoyant force.
You sink.
If force decreases, pressure decreases as well. Pressure is directly proportional to force, so when force decreases, the pressure exerted by the force also decreases.
It will accelerate upward. When it reaches the surface and part of the object sticks out of the fluid, then the buoyant force decreases. When enough of it sticks out so that the buoyant force exactly equals the force of gravity (the object's weight), then it stops rising and stays right where it is (floats).
The buoyant force of air is greatest when an object is fully submerged in the air. This is because the volume of air displaced by the object is at its maximum, creating the greatest upward force. The buoyant force decreases as the object is lifted out of the air, until it reaches a point where the object is no longer displacing enough air to experience a significant buoyant force.
If the buoyant force on an object is greater than the weight of the object, the object will float. This is because the buoyant force will push the object upward with a force greater than the force of gravity pulling it downward.
i will float
If the weight of the object is higher than the buoyant force the object SINKS. And the opposite happens if the weight is lower than the buoyant force. If it is equal, the object neither sink nor float, it is neutrally buoyant.
The object sinks.
It is stationary, regardless of where it is.