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Therefore, we realized that the upthrust is 45 newtons. So we say that the weight of the displaced water is equal to 45 newtons. So we need to find a relationship that links together the weight of the displaced water with its mass. And since we already know the weight of the displaced water, we can work out this mass. To do this, we need to rearrange a bit. Now at this point, we just need to plug in the values of the weight and the gravitational field strength.

So the mass is going to be the weight which is 45 newtons divided by the gravitational field strength which is 9. The weight is in standard unit of newtons and the gravitational field strength is in its standard unit of meters per second squared. Therefore, when we complete the calculation, the mass that we find is going to be in its standard unit of kilograms.

So evaluating the right-hand side of the equation, we find that the mass of the displaced water is 4. However, we need to give our answer to one decimal place. So we need to round this value here. Now, this value is a five. But depending on the one after it, it could either stay the same or round up to a six. Well, this value is a nine.

Nine is larger than five. The volume of a cricket ball and a beach ball may be the same, but their density differs due to their varied weights. The solid steel block sinks into the sea, but not the steel ship. As a result, the amount of displaced water in the upward direction can be calculated using buoyant force.

Let's look at the buoyancy force and how it's calculated, as well as some of the gadgets that rely on it. If the displaced liquid's weight is equal to the object's weight, and the displaced liquid's weight is equal to the buoyant force. Hence, the correct option is C.

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Floating and sinking If the upthrust is less than the weight of the object, the object will sink. If the density of the object is greater than the density of the fluid, the object can never displace enough fluid to create an upthrust that will hold its weight up so it sinks. The sinking only stops when the object reaches the bottom and an extra reaction force is added to the upthrust in order to balance the weight.

If the upthrust is larger than the weight of the object, the object will rise. This happens when you jump into a swimming pool and then rise back up to the surface. Under the surface, the weight of water you displace - the upthrust - is more than your weight, so there is a resultant upwards force. What is the relation between buoyant force and the weight of an object floating in a liquid?

Archimedes principle: The buoyant force exerted on a body immersed in a fluid is equal to the weight of the fluid the body displaces. What is the relationship between the buoyant force and the weight of an object when the object? What is the relation between upthrust and density? What is the relation between upthrust and density of liquid? Larger the volume of the body submerged in fluid, greater is the upthrust.

More the density of the fluid, greater is the upthrust. How is the buoyant force related to weight? Explanation: The buoyant force is equal to the weight of the water displaced by the object. If the object floats, the 2 magnitudes are equal.

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