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The buoyant force on any object in water is equal to the weight of the displaced water, regardless of how much of the object is submerged.
Push it down, and measure how much water is displaced.
Weight of body in air = 35N Buoyant force = Weight of liquid displaced Volume of water displaced = 1l Density of water = 1000kg/m3 In this case, Volume = 1000ml Density = 1000kg/m3 Mass = 1000kg/1000ml = 1kg Mass = Volume Weight of water displaced = 1 x 9.81 = 9.81N Therefore, weight of body in water = 35 - 9.81 = 25.19N
It is the force exerted by a fluid equivalent to the weight of fluid that has been displaced by the substance that has immersed in it. A boat floats in water because the weight of water displaced by the boat is greater than the weight of the boat. Weight depends very much on Gravity and so if there is no gravity (such as objects in orbit) there can be no bouyancy effects either.
The buoyant force on any object, no matter how much or how little it's submerged, is equal to the weight of the displaced water. Technically, that even goes for an object that's a thousand miles from the nearest water.
Mass will determine how much water is displaced by something that floats. Volume will determine how much water is displaced by something that does not (that sinks).
Put it in water and measure how much water is displaced.
10ml's of water is equal to 10cm3 of water. 10cm3 of water has a mass of 10g. The specific heat of water is 4.134 J/K. The change in temperature is 1 degree Kelvin. Use Q=mC∆T which means Heat= (Mass)(Specific Heat)(Change in Temperature) Q= (10)(4.134)(1) Q=(10)(4.134) Q=41.34 Joules
measure the weight in grams and then put it in water and measure how much water is displaced. then divide milliliters displaced over grams and you have density.
The buoyant force on any object in water is equal to the weight of the displaced water, regardless of how much of the object is submerged.
Air is displace by water because water is much denser than air and therefor is much harder to compress.
Use water and see how much is displaced (quickly)
the weight of the ship is equal to the amount of water displaced
Push it down, and measure how much water is displaced.
1.8l
The Titanic displaced 52310 tons.
First of all, if you're going to work with the volume of displaced water, it makes no difference at all how much water you start out with. The object would displace the same amount from a bucket as it would from Lake Michigan. But, to deal with the answer to your question: It's not possible to answer your question. The volume of water displaced is the same as the volume of the metal that you drop into the bucket. But you've only told us the area of one flat side of the metal. We have no idea what its volume may be until we also know its thickness.