ice=0.9167
is asample of ce is 1.0 cm and mass of 0.9g what is the density of the ice
Mass = volume x density Given volume = 16 cm3. Density 0.920 g/cm3
So mass = 14.72 g.
To calculate the density of any object all you need to do is measure the mass and volume. Density = mass/volumeThe density of ice is less than water(which is why only the top of lakes freeze in the winter). For those that want to find the density while it is floating in water look below: Imagine a cube of ice floating in water. In order for it to float the force of gravity on the ice must equal the force of buoyancy on the ice. The force of buoyancy as described by Archimedes is equal to the mass of water displaced by the ice. Lets say the ice is x cm below the level of the water. then: force buoyancy = (density of water)*volume*gforce buoyancy = (density of water)*(area of ice cube)*x*g where g is the acceleration due to gravity equating this to the force of gravity gives: (density of water)*x = (density ice)*(total height of cube) hope that helps.
Ice density is 0,9167 g/cm3 at oC.
No, as long as it is the same peice of ice. The volume and the density change but not the mass
Answer Increasing the volume of a quantity while keeping its mass fixed decreases its density (mathematically, d = m/v). This can be observed in the transition of water from its liquid stage to its solid stage, or vice versa. As water turns into ice, its volume increases yet its mass is fixed (no additional water is added or lost--assuming the losses from evaporation is negligible); hence its density will decrease. This is why ice cubes float in drinks, or icebergs exist. drugs are bad mmkay!!!!!
No. It's less dense. That's why ice floats in water. (By the way ... when you're talking about density, you don't include quantities, like a cm3. Density is a property of the substance, and it's constant for any sample of the substance, regardless of the size of the sample. A drop of water has the same density as the swimming- pool-full it came out of. Density is measured in grams per cm3 or kilograms per litre - essentially, a unit of mass per a unit of volume.)
volume*density
1kg = 1000g ice will have volume: Density = mass /volume Volume = mass / density Volume = 1000/0.92 Volume = 1,086.95ml = 1,087ml 1,087 ml = 1.087 liters.
This density is measured by several methods; the simplest is with the formula density=mass/volume.
Yes, volume is an unreliable measure of the quantity of matter as the same material can have different densities, but the same volume. For example, 1L of ice, water, and steam all contain the same volume of water, but the number of atoms in that volume can vary.
When you freeze water it expands, but does not gain mass, this means it's the same mass but now it is a higher volume. Density=mass over volume. More volume= less density.
To calculate the density of any object all you need to do is measure the mass and volume. Density = mass/volumeThe density of ice is less than water(which is why only the top of lakes freeze in the winter). For those that want to find the density while it is floating in water look below: Imagine a cube of ice floating in water. In order for it to float the force of gravity on the ice must equal the force of buoyancy on the ice. The force of buoyancy as described by Archimedes is equal to the mass of water displaced by the ice. Lets say the ice is x cm below the level of the water. then: force buoyancy = (density of water)*volume*gforce buoyancy = (density of water)*(area of ice cube)*x*g where g is the acceleration due to gravity equating this to the force of gravity gives: (density of water)*x = (density ice)*(total height of cube) hope that helps.
Ice density is 0,9167 g/cm3 at oC.
No, as long as it is the same peice of ice. The volume and the density change but not the mass
Nothing happens to the density. It's a property of the . The density is the same regardless of how large a piece you have. That's why density is a useful concept. It tells you something that's true of the regardless of what size sample you're holding.A large block of ice has the same density as a small ice cube.The 49¢ sample of Acme soap has the same density as the $1.49 family-size bar of Acme soap.
This is the density.
Mass of ice less than that of water.Weight (other than in space) of ice less than that of water. Volume of both the same. Density of ice less than that of water.
Answer Increasing the volume of a quantity while keeping its mass fixed decreases its density (mathematically, d = m/v). This can be observed in the transition of water from its liquid stage to its solid stage, or vice versa. As water turns into ice, its volume increases yet its mass is fixed (no additional water is added or lost--assuming the losses from evaporation is negligible); hence its density will decrease. This is why ice cubes float in drinks, or icebergs exist. drugs are bad mmkay!!!!!