Want this question answered?
If the density of the liquid is greater than that of the object, the object will sink. This is because the liquid is denser and exerts a greater buoyant force on the object, causing it to sink until it reaches an equilibrium point where the buoyant force equals the gravitational force.
Hookes law
If you were submerged in a liquid more dense than water, the pressure would be correspondingly greater. The pressure due to a liquid is precisely equal to the product of weight density and depth. liquid pressure = weight density x depth. also the pressure a liquid exerts against the sides and bottom of a container depends on the density and the depth of the liquid.
The pressure that a fluid exerts depends on the density and the depth of the fluid.
As air density decreases, the pressure it exerts decreases, but the pressure exerted on it increases.Remember the equation:PV=nRTAnd since n=mass/molar mass,P=nRT/D, density and pressure exerted ON the system have an inverse relationship--as one increases, the other decreases
If the density of the liquid is greater than that of the object, the object will sink. This is because the liquid is denser and exerts a greater buoyant force on the object, causing it to sink until it reaches an equilibrium point where the buoyant force equals the gravitational force.
higher as when the temprature rises the density of the water/liquid decreases, so does the buoyant force that the water/liquid exerts on an object such as a boat or vessel
Hookes law
If you were submerged in a liquid more dense than water, the pressure would be correspondingly greater. The pressure due to a liquid is precisely equal to the product of weight density and depth. liquid pressure = weight density x depth. also the pressure a liquid exerts against the sides and bottom of a container depends on the density and the depth of the liquid.
the answer to thins question in inside your pants hahah but no its resistance
The pressure that a fluid exerts depends on the density and the depth of the fluid.
Ships will float higher in tropical waters because as the density of a fluid decreases with a rise in temperature, so does the buoyant force that the fluid exerts on an immersed object. The buoyant force decreases because the displaced fluid weighs less at a higher temperature.
As air density decreases, the pressure it exerts decreases, but the pressure exerted on it increases.Remember the equation:PV=nRTAnd since n=mass/molar mass,P=nRT/D, density and pressure exerted ON the system have an inverse relationship--as one increases, the other decreases
Gravity pulls both the fluid and the submerged object downward. The difference between the gravitational attractive forces on the fluid and the submerged object describes the upward (buoyant) force that the fluid exerts on the object.
bcoz hydrogen gas is less denser than air and is exerts buoyant force on balloon
They stay the same :)
Mass