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A metal with a mass of 71.68 g occupies a volume of 8.00 cm3. Calculate the density of the metal. Using Table 1 in our lesson determine the identity of the metal?
To calculate the density of the metal, use the formula: density = mass/volume. Given the mass is 71.68 g and the volume is 8.00 cm³, the density is 71.68 g / 8.00 cm³ = 8.96 g/cm³. Referring to Table 1, this density closely matches that of copper, which typically has a density of around 8.96 g/cm³. Therefore, the metal is likely copper.
A metal with a mass of 15.00 g occupies a volume of 1.32 cm3. Calculate the density of the metal. Using Table 1 in our lesson determine the identity of the metal?
To calculate the density of the metal, use the formula: density = mass/volume. Here, density = 15.00 g / 1.32 cm³ = 11.36 g/cm³. By comparing this density with values in Table 1, the metal likely corresponds to lead (Pb), which has a density of approximately 11.34 g/cm³.
A piece of metal weighs 13.21g When inserted into a cylinder containing exactly 50.00mL of water the metal and water occupy a volume of 54.89 mL what is the metal?
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.
How you would measure the density of a metal bolt?
To measure the density of a metal bolt, you would first weigh the bolt using a scale. Then, you would measure the volume of the bolt, for example by using a water displacement method. Finally, you would calculate the density by dividing the mass of the bolt by its volume.
What is the densit of metal if 12.24 g is added to 21.27 ml of water in graduated cylinder the water level rises to 25.28 ml calculate the density of the metal?
The difference between the new volume and the old volume is 20 ml. This means that the 60.0 g piece of metal had a volume of 20 ml. Density is given by mass / volume, so this metal has a density of 3 g / 1 ml.
A cube of metal has a mass of 0.357 kg and measures 3.01cm on a side calculate the density of the metal?
To calculate the density of the metal, you need to divide the mass of the cube by its volume. The volume of a cube is given by the formula V = side length^3. In this case, the volume would be (0.0301m)^3. Once you have the volume, you can then calculate the density by dividing the mass (0.357 kg) by the volume.
A metal with a mass of 15.00 g occupies a volume of 1.32 cm3. Calculate the density of the metal. Using Table 1 in our lesson determine the identity of the metal?
To calculate the density of the metal, use the formula: density = mass/volume. Here, density = 15.00 g / 1.32 cm³ = 11.36 g/cm³. By comparing this density with values in Table 1, the metal likely corresponds to lead (Pb), which has a density of approximately 11.34 g/cm³.
How do you calculate the density of a metal ball without an overflow can or a graduated cylinder?
There are several methods that can be used to calculate the density of a metal ball. The density of a metal ball can be derived from the fact that the volume is: 4*(pi)*r^3/3 and the denisty is mass/volume. If the mass and moment of inertia are known but the dimensions of the metal ball are not, then you can use the fact that the moment of inertia of the ball is 2m*r^2/5 and solve for m to get r=(5I/2)^.5 and plug in the value for r into the volume equation then calculate the density of the ball by dividing the mass by the calculated volume.
What volume of water would be displaced by 13.3543 g of a metal with a density of 7.51?
The first step is to calculate the volume of the metal using its density and mass. Volume = mass / density = 13.3543 g / 7.51 g/cm^3 = 1.779 cm^3. Therefore, 1.779 cm^3 of water would be displaced by the metal.
A piece of metal weighs 13.21g When inserted into a cylinder containing exactly 50.00mL of water the metal and water occupy a volume of 54.89 mL what is the metal?
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.
How you would measure the density of a metal bolt?
To measure the density of a metal bolt, you would first weigh the bolt using a scale. Then, you would measure the volume of the bolt, for example by using a water displacement method. Finally, you would calculate the density by dividing the mass of the bolt by its volume.
What is the density o gold metal wth a mass of 979 grams?
The density of gold is approximately 19.32 g/cm^3. To calculate the volume of the gold, divide the mass (979 g) by the density to get the volume in cubic centimeters.
How do you determine the mass of a magnesium metal strip without using a scale?
You can determine the mass of a magnesium metal strip by using the formula: mass = density x volume. Measure the dimensions of the strip to calculate its volume, then use the known density of magnesium (1.738 g/cm^3) to find the mass.
A block of metal has a width of 3.2 a length of 17.1 and height of 3.4 its mass is 1.4 Calculate the density of the metal?
what is the unit for the mass density = mass over volume volume= length*height*width check the units whether you need to convert or no and then complete it
What experimental method can determine the density of metal?
Density is the mass of the object divided by its volume. By this principle, to determine the density of a metal, place the metal onto a scale to measure its mass. After this, place the metal into a beaker of water and measure the volume change in the beaker. Divide the mass by the volume and you get the density.
How does the density of the metal in a crushed can compared with the metals density before the can was crushed?
The density of the metal in a crushed can remains the same as the density of the metal before the can was crushed. While the volume of the can decreases when it is crushed, the mass of the metal remains constant. Therefore, the density, which is mass divided by volume, remains unchanged.
What is the density of a metal that has a mass of 35000 KG and a volume of 4.0 m³?
The density of the metal is 8750 kg/m³. Density is calculated by dividing the mass of an object by its volume.
