To measure the volume of a solid, you would place the solid in a graduated cylinder or beaker (depending on the size of the solid) with a recorded volume of water. After putting the solid in the water, the water will rise, and subtracting the original volume from the final volume will give you the volume of the solid.
Ex. Put a block in a graduated cylinder with 50 mL of water and the level rises to 75 mL. Volume=75-50=25 mL
To determine the mass of the solid, you would simply mass it on a balance or scale.
Graduated cylinder for liquids and small solids and a gas would have the volume of the container it's in
For mass, you would use a triple-beam balance. For volume, you would either use a graduated cylinder (for liquids), calculate the displacement with a graduated cylinder (for an odd-shaped solid), or calculate it using the equation for volume (for a regularly-shaped solid).
If this rectangular solid is actually in your possession, then you would measure it and calculate the volume, after which you can derive the density by dividing the mass by the volume. If it is not in your possession, then you are clearly being asked to call upon your psychic powers to solve this problem.
I would use to measure a volume of a glass liters. Signed Luini, liters are bigger than milliliters and liters are about the volume of a glass.
the volume of the solid would go down , thus making the solid into a liquid.
To measure the density of a regularly shaped solid, common tools used include a balance or scale to measure the mass, and a ruler or caliper to measure the dimensions (length, width, and height) of the solid. With this information, the density can be calculated by dividing the mass by the volume of the solid, which can be determined by multiplying the three dimensions together.
You place it in water to see the volume of water it displaces. Fill a large, graduated measuring cylinder to about halfway with water (say to 50mL) Put the irregular solid in, and measure the volume it reads (solid + water). (say it reads 80mL) So the volume of the irregular solid will be: volume(solid+water) - volume(water). For example, the volume of the water was 50mL, and when the solid was added, the volume increased to 80mL. The volume of the solid would be 80mL - 50mL. So it would be 30mL.
Graduated cylinder for liquids and small solids and a gas would have the volume of the container it's in
No solid figure has a surface area equal to its volume. That would not be possible as the units of measure are different.
You would need a balance to measure its mass. You would need a ruler to measure the length of its sides. Then you would need to calculate volume. Then divide the mass by the volume to get density.
There are three ways to measure volume. If you are measuring a liquid, you need a graduated cyliner. If you are measuring the volume of a regular solid, you need a ruler to measure length, width, and height. You would then use the formula V=LxWxH. The third way to measure volume is to use displacement to find the volume of an irregular solid. You would put a certain amount of water in a graduated cylinder, write the starting amount down. Add the irregular solid to the graduated cylinder. Record the ending amount of liquid and subtract the ending amount minus the starting amount.
For mass, you would use a triple-beam balance. For volume, you would either use a graduated cylinder (for liquids), calculate the displacement with a graduated cylinder (for an odd-shaped solid), or calculate it using the equation for volume (for a regularly-shaped solid).
An air bubble in the solution would effectively increase the volume that you measure for the solid because you would coutn the volume of the bubble as the volume of the solid (but of course, it's just air!).So if you measure the density of a solid by putting a weighed amount of the solid in a liquid (in which the solid is insoluble), then an air bubble in the solution would make the measured volume of the solid larger than it really is.Density is found by taking the mass divided by volume. Assuming you find the mass correctly, if the measured volume is larger than the real volume, the denominator in the fraction (mass/volume) will be too big. If a denominator is too big, than the fraction is smaller.Therefore an air bubble will cause you tounder estimate the density.
When you are measureing smaller units you would use mL
For mass, you would use a triple-beam balance. For volume, you would either use a graduated cylinder (for liquids), calculate the displacement with a graduated cylinder (for an odd-shaped solid), or calculate it using the equation for volume (for a regularly-shaped solid).
No. When water freezes and becomes ice, it expands. This causes it to have greater volume. If you were to melt down ice, the volume you would measure afterwards (in liquid form) would be lass than the volume of the actual solid ice.
mililiters