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If an object is suspended in a fluid neither sinking nor floating then?
The object is in equilibrium, where the gravitational force pulling it downward is balanced by the buoyant force pushing it upward. This results in the object being suspended at a specific depth where the forces are in balance.
What is it called when objects displace as much water as they weigh?
When an object displaces as much water as its weight, it is known as being in a state of neutral buoyancy. This phenomenon allows objects to remain suspended at a certain depth in a fluid, neither sinking nor floating.
How do you find the volume of a floating object?
Exactly the same as for a non-floating object. Finding the volume of a shape does not vary, (i.e it's always something along the lines of height*width*depth, or area of base *height. "Table" or "surface" is irrelevant, since if it not a variable in the formula). This is true whether the object is floating or not.
This force acts upwards on objects suspended in water or air what is it?
It is called buoyant force. It is calculated by determining the volume of water displaced by the object, which is the volume of the object under water.The weight of this quantity of water is the buoyant force. It can also be calculated by knowing the depth of the object in the water, the pressure at that depth, and the area of the bottom of the object. Buoyant Force = Pressure * depth It can also be calculated by knowing the weight of the object. If an object is floating the water is supporting the object's weight. So the buoyant force = weight of object
How does pressure change with depth why?
The pressure on an object increases with depth because there is more pushing on it. For example, four feet below the surface of water, there is a layer of water four feet thick pushing on the object and the water around it. Now several miles down, this layer of water is much thicker, and so exerts more pressure when it is pushing down. In this example I used water, but the same can be applied to any fluid, including air.
Why submarine staylonger underwater?
their floating at a depth
How is fluid pressure related to fluid depth?
Fluid pressure is directly related to fluid depth, as pressure increases with depth due to the weight of the fluid above pushing down. This relationship is described by the hydrostatic pressure formula, which states that pressure at a certain depth is proportional to the density of the fluid, the acceleration due to gravity, and the depth of the fluid.
What is meant by neutral buoyancy?
Neutral buoyancy refers to the state of an object in a fluid where the buoyant force acting on the object is equal to the gravitational force pulling it down, resulting in the object neither sinking nor floating to the surface. This allows the object to remain suspended at a specific depth in the fluid.
Infer An object floats in a fluid what can you say about the buoyant force on the object?
If the object is floating, then the buoyant force is equal to the object's weight.Read more: An_object_floats_in_a_fluid_What_can_you_say_about_the_buoyant_force_on_the_object
What is the difference between length and depth?
length signifies how long the object is while depth signifies the deepness or height of the object .there is no difference in depth and height of an object
Why is the pressure at the bottom of an object in fluid greater than the pressure at the top of the object?
because of the height, as you go down further in depth the greater the pressure. imagine when you at a greater depth the greater amount of fluid you have to endure. the pressure would be the same everywhere at the same depth in fluid but the force on the object would depend on the area of the object.
How is the density of a floating object relate to the density of the fluid it is floating in?
If an item floats, Then it is less dense than the liquid it floats in. One can prove this using bernoulli's equation. To determine the weight of the floating object, take the volume of water displaced by the portion of the object below the fliud surface then multiply that by the density of the fluid. This process gives you the bouyant force on the floating object and therefore the weight. Then take that weight and divide it by the total volume of the. Object to get its density. Also note that if an item is suspended below the surface but. Above the bottom of the fluid body, then the item and fluid have equal density. If the item sinks to the bottom it has higher density than the fluid.
