Depends on the weight of water.
Salted water being heavier ,it will offer more resistance to any floating object.
Also the atmospheric pressure might play an important role in the buoyancy.
Buoyancy force is the upward force exerted by a fluid on an object immersed in it. It counteracts the weight of the object, causing it to float or feel lighter. The magnitude of the buoyancy force depends on the volume of the object displaced in the fluid.
No. The buoyancy factor of milk and eggs isn't sufficient enough to support the weight of a human body.
no, buoyancy is when something floats on water
inertia simply depends upon mass.
Buoyancy is nothing related to plants. It is the property of a fluid to exert an upward thrust on a body emerged into it .
No, a dead body cut into pieces may have different buoyancy characteristics compared to a dead body intact. Factors like the distribution of weight and air trapped within the body can influence buoyancy, resulting in different behaviors in water.
Buoyancy
If a body is floating IN a liquid, it has neutral buoyancy- does not go up or down. If it is floating ON a liquid, it has positive buoyancy. Neutral- when pressed down, body moves down- and when released, it stays there. Positive buoyancy- moves down, when released returns to it's position on top of the liquid.
Buoyancy is an upward acting force. It is caused by fluid preassure which opposes an objects weight ( their gravitational pull downwards ).
An object has positive buoyancy when it weighs less than the fluid it displaces. This causes the object to float in the fluid, as the buoyant force pushing upward is greater than the force of gravity pulling downward. Objects with positive buoyancy will naturally rise to the surface of a fluid.
The body can float in water due to a concept called buoyancy. Buoyancy is the upward force exerted by a fluid on an object immersed in it. When the body's density is less than that of water, it experiences an upward buoyant force that helps it float.
When we exhale carbon dioxide, it displaces some of the surrounding air in the water, causing our body to sink due to a decrease in buoyancy. This change in buoyancy alters the density of our body compared to the water, leading to a sinking effect as a result.