Princey118
Wiki User
∙ 14y agoFirst, calculate the volume of the metal by subtracting the starting volume (25.0 ml) from the final volume (27.6 ml), giving you 2.6 ml. Convert this to cm^3 (1 ml = 1 cm^3), getting 2.6 cm^3. Now, divide the mass of the metal (0.255 lb) by its volume (2.6 cm^3) to find its density, which is 0.098 lb/cm^3.
The density of the metal can be calculated by dividing the mass of the metal (48 g) by the volume of water displaced (25 ml). The density would be 1.92 g/ml.
If you drop a piece of metal into a graduated cylinder partially filled with water, the water level will rise due to displacement of water by the metal. This can be used to determine the volume of the metal piece.
The water level will rise slightly because the metal displaces an equal volume of water, increasing the overall mass in the pool. However, the rise will be less than the volume of the metal due to the density difference between water and metal.
If the object remains suspended in water, it means that its density is less than that of water. This is because objects with lower density than water will float or remain suspended in water.
To find the density of the metal, calculate the density of water first (1g/mL). Next, use the volume increase (54.89 mL - 50.00 mL) to calculate the volume of the metal in the cylinder (4.89 mL). Divide the weight of the metal (13.21g) by its volume (4.89 mL) to find its density, approximately 2.7 g/mL.
The volume of the metal can be calculated by finding the difference in water levels before and after adding the metal (28.69 ml - 21.76 ml = 6.93 ml). The density of the metal can be calculated using the formula: density = mass / volume. So, density = 91.66 g / 6.93 ml = 13.23 g/ml.
If you drop a piece of metal into a graduated cylinder partially filled with water, the water level will rise due to displacement of water by the metal. This can be used to determine the volume of the metal piece.
It depends on the shape of the object. Otherwise you could not make metal ships.
Calcium metal is more dense than water. If you had a block of calcium and dropped it in a container of water, it would sink. Note! Calcium reacts with water! Calcium metal is stored in a container beneath kerosene or another liquid to isolate the metal from air. Calcium will chemically react with the moisture in air and will thus be decomposed.
weight the metal ball first. then fill a graduated cylinder with water- it doesnt really matter how much, and put the metal ball in the water. measure how much the water level has increased by in mL. take the mass, and divide by the mL of water and then you get the density. ++ If it's an accurate sphere you can also measure its diameter and so calculate the volume, from which and the mass you can calculate the density.
the object volume is equal to the water displaced, or 10ml. Density is 15/10 = 1.5g/ml
It will sink.
The water level will rise slightly because the metal displaces an equal volume of water, increasing the overall mass in the pool. However, the rise will be less than the volume of the metal due to the density difference between water and metal.
A little hard when you didn't give us the original water level...
You measure how many mL the water went up.
The specific gravity of a metal is determined by comparing its density to the density of water. To find the specific gravity of a metal, divide its density by the density of water (1000 kg/m^3 at 4°C). The specific gravity is a unitless value that indicates how many times denser the metal is compared to water.
The density of water at sea level is approximately 1,000 kg/m^3.