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Objects in water displace some quantity of that water. The amount of water displaced on the mass and volume of the object. Objects float because the mass of the water they displace is greater than their own mass.
Take, for example, a 10 cubic foot barrel placed in a fresh water lake. Visualize a small barrel about 18 inches in diameter by just over 2 feet long. Let's assume that the barrel weighs 10 pounds when empty.
Water has a mass of about 62.4 pounds per cubic foot. The 10 cubic foot barrel, if sunk, would displace about 624 pounds of water. That is to say, before the barrel can sink, 624 pounds of water must be moved out of the way so the barrel can take its place. Another way to view this is that there is a 624 pound force trying to keep the barrel afloat.
Let's imagine that our barrel is empty. The term "empty" here on Earth doesn't really mean it has nothing in it. It actually means it's filled with air. Air weighs about .08 pounds per cubic foot. If the barrel is filled with air, it would weigh 10.8 pounds (10 for the barrel itself plus .8 for the air). Since the volume of water that would need to be displaced to sink the barrel weighs 624 pounds, the 10.8 pound air-filled barrel will float. In fact it can only displace 10.8/62 cubic feet of water, or about .17 cubic feet. The barrel would float very high in the water - most of it would be above the surface. We'd have to strap another 613.2 pounds to our barrel before it would begin to sink.
Imagine instead that the barrel is filled with something heavier - say Mercury. Mercury weighs about 849 pounds per cubic foot. Our ten cubic foot barrel of mercury weighs 8500 pounds! (10 pounds for the barrel and 8490 for the mercury). It will easily displace the 624 pounds of water and will sink like... well... like a barrel full of mercury. That is, assuming you could roll an 8500 pound barrel as far as the lake to begin with.
Let's turn the question around. How many cubic feet of mercury could we put into our barrel and have it continue to float? Remember that if our barrel sinks, it will displace 10 cubic feet of water and that water weighs 624 pounds. We need to keep our 10 pound barrel afloat, so that leaves us 614 pounds. Our mercury has to weigh less than 614 pounds if we expect our barrel to float.
Since mercury weighs 849 pounds per cubic foot, 614 pounds of it is about .723 cubic feet (614/849). If we put less than .723 cubic feet of mercury into our barrel and put it in the lake, it will float.
Alert readers might point out that the portion of the barrel that isn't holding mercury probably contains air, which we need to account for. That's true but mercury is so dense that the numbers don't change much.
I know what you're thinking. "What about beets?" you're thinking. Actually this exercise can be repeated with any substance we know the density of. That is, we know what's its mass is for a given volume. There's a link at the end of this answer to a table of densities and weights per cubic foot of scores of common substances. Will the barrel float if it's filled with beets? Check the table to figure it out.
Specific GravityIt turns out that we don't need to imagine barrels filled with stuff to determine if that stuff will float in fresh water. We know that water weighs 62.4 pounds per cubic foot. Any material that weighs less than 62.4 pounds per cubic foot will float. If it weighs more, it will sink. That's pretty easy, but if we take a look at our table we'll notice something that will make our calculations even easier. That's something called specific gravity.
Specific gravity is a measure of how dense something is when compared to fresh water (remember that density is how much something weighs for some given volume). The specific gravity of pure water is always 1. If a substance has a specific gravity of less that one, it will float. A substance with a specific gravity greater than one will sink.
Our beets have a specific gravity of .72. They'll float. Birch wood, with a specific gravity of .71 floats even better than beets. Red brick, at 1.92, sinks like a brick. That's why it's somewhat easier to build a boat out of birch wood than it is out of brick. As for a boat made of beets, the mind boggles.
What else can I help you with?
How do things float?
things float because they are less denser then the water. second things do not float, the molecules from the water support the molecules from the thing on the water. that is how something heavy can float. it just has to be boyent meaning it is spread out enough so there is more water molecules to hold it up. if you mean in the air it is the same concept.
What things will float in salt water and not in fresh water?
An egg is one such thing.
Do peanuts float in fresh water?
Yes. The salt stabalizes them in the water. If you have ever heard of the dead sea, anything really can float in there. If there is salt in water a peanut can float.
Why do things float if there is more density in the water?
If the density of the unknown is more than the density of water , it will sink If the density of the unknown is less than the density of water, it will float. Things do not float unless their densities are below that of water which is 1.00 g/ml.
Controlled variable of the egg flotation?
it is when a egg float on the matter of something making it float.
What is the reason why some things float or sink because water is what?
Some things float or sink in water due to their density. Objects that are less dense than water will float, while objects that are more dense will sink. This is because the buoyant force acting on an object in water is equal to the weight of the water displaced by the object.
What makes some things float?
Density of the object and buoyancy of the water/liquid.
What are the reason why some things float in the water?
Certain things float in water because their density is less than the density of water. If something experiences more upthrust in water than its weight(upthrust>weight) or upthrust=weight, then it floats in water.
What is a liquid that makes things float?
It is quite common for various things to float in water. But any liquid can cause things to float.
Why would some things float in lemonade but not pure water?
Some things float in lemonade but not in pure water because lemonade is denser than water due to the added sugar content. The increased density of lemonade provides more buoyant force, allowing certain objects to float that would sink in pure water.
What are some things that can float in water?
Objects that are less dense than water can float in it. Some examples include wood, plastic, cork, and certain types of metals like aluminum. Additionally, objects that are hollow or have air pockets can also float in water.
What are bobwhites?
things that float in water
What are things that float on water?
ghfghv
Why does some things float on water while others dont?
Some things float on water because they are less dense than water, creating buoyancy that allows them to stay afloat. Other things sink in water because they are denser than water, causing them to displace water and sink. Factors like shape, size, and weight can also affect whether something will float or sink in water.
Why does salt water make things float?
salt makes the water denser, so things that are now less dense than the salt water will float
How do things float?
things float because they are less denser then the water. second things do not float, the molecules from the water support the molecules from the thing on the water. that is how something heavy can float. it just has to be boyent meaning it is spread out enough so there is more water molecules to hold it up. if you mean in the air it is the same concept.
What are some things that are buoyant?
Some things that are buoyant include wood, plastic, cork, and foam. These materials are less dense than water, causing them to float when placed in a body of water.
