If you're floating metal on water, there are only a couple or three metals that have a density so low that they'll float on water. Those metals are lithium, potassium and sodium. Any one of these will float on water, and they are listed in order of increasing density with sodium just a bit less dense than water. Note that all of these metals will react violently with water, so we're setting this issue aside here. Be clear about that.
A metal boat would float on water and be a conductor of electricity.
Record how high the foam floats in water.
Metals are more dense than water. This means that a piece of metal weighs more than water of equal volume. The force of gravity on earth is approximately equal to 9.8m/s^2 * mass of object(in kg). Since the metal weighs more than the equivalent volume of water, gravitational force on the metal is stronger than gravitational force on the water, causing the metal to be pulled towards earth, pushing the water aside. The reason ships float is because they are shaped to increase the volume of water they displace, but rather than being pure metal, they have lots of room for air, which has a very low density. The combined displacement makes the ship have a density lower than that of water, so the ship floats.
Oil floats on water because water is denser than oil.
a ship
A metal boat would float on water and be a conductor of electricity.
Usually aluminum floats because it is also quite light.
Lithium and sodium will both float on water, but not for long, because they're both explosively reactive with water.
Of course. Fresh water floats on salt water, warmer water floats on cooler water, and ice floats on any water.
It is less dense than water, therefore it floats on water.
an electron.
A metal boat floats in water because of a principle called buoyancy. The boat's shape and weight displace enough water to create an upward force that supports the boat's weight, allowing it to float on the surface of the water.
If an object floats on water, it means its density is less than that of water. You can calculate the density of the object by comparing its weight to its volume, using the formula density = mass/volume. The density of water is about 1 g/cm^3, so if the object floats on water, its density will be less than 1 g/cm^3.
kerosene floats on water because kerosene is less denser than water
Record how high the foam floats in water.
freeze water as ice cubes then put it on water and it floats Liquid fresh water floats on salt water Warm water floats on cold water (water's greatest density is when it is 4 degrees Celsius).
The reason why ice will float in water is because ice is not as dense as water, therefore, it floats.