Density = (mass) / (volume) = 27/10 = 2.7 gm/cm3 .
To calculate the weight of aluminum, you need to know the volume of the aluminum object (in cubic inches or cubic centimeters) and the density of aluminum (2.7 g/cm3 or 0.098 lb/in3). Multiply the volume by the density to find the weight of aluminum in grams or pounds.
Lead has a higher density compared to aluminum. So, to find the mass of lead that occupies the same volume as 100g of aluminum, you would first calculate the volume of the aluminum using its density. Then, you would find the mass of lead that occupies the same volume by using the density of lead.
The 10 cm3 of aluminum would have a higher density compared to the 5 cm3 of aluminum. Density is a physical property defined as mass per unit volume, so in this case, the larger volume (10 cm3) would contain more mass, resulting in a higher density compared to the smaller volume (5 cm3).
It is approx 1.88 g/cm3.
To calculate the mass of an object, you can use the formula: mass = density x volume. Multiply the density of the object by its volume to find the mass. Make sure the units for density and volume are compatible, such as grams per cubic centimeter for density and cubic centimeters for volume.
To find the volume of 54 grams of aluminum with a density of 2.7 g/cm3, divide the mass by the density: 54 grams / 2.7 g/cm3 = 20 cm3. Therefore, the volume of 54 grams of aluminum is 20 cubic centimeters.
To calculate the weight of aluminum, you need to know the volume of the aluminum object (in cubic inches or cubic centimeters) and the density of aluminum (2.7 g/cm3 or 0.098 lb/in3). Multiply the volume by the density to find the weight of aluminum in grams or pounds.
You need some aluminum, a scale to determine the mass, and a measuring cup halfway filled with water to determine the volume of the piece of aluminum by substracting the volume after and before you drop the piece of aluminum in the water. Then you can calculate the density of the aluminum = mass / volume.
The density of aluminum is calculated by dividing its mass by its volume. To convert the volume from liters to cubic centimeters, multiply it by 1000. Then, divide the mass by the volume to find the density. In this case, the density of the aluminum is 2.70 g/cm3.
By definition: Density is equal to the mass divided by the volume. You have a volume of 20 ml and a mass of 54 g.
To find the average density of the can and its contentsWeigh the can of soda pop (mass) and then divide by the number of cubic centimeters in the can (volume). Density = mass/volume.To find the density of the aluminum canEmpty the can completely, weigh it, then place it in a filled liquid container to determine the volume of the aluminum. Divide as above to find the density of the aluminum (should be approximately 2.7 grams per cubic centimeter).
If you divide the mass by the volume, for any object, you get its density.
The density of aluminum is approximately 2.7 g/cm^3. To calculate the density of an aluminum cylinder, you would need to know its mass and volume, and then divide the mass by the volume to get the density.
To find the volume of 8.1 g of aluminum, you can rearrange the density formula (Density = Mass/Volume) to Volume = Mass/Density. So for 8.1 g of aluminum and a density of 2.7 g/ml, the volume would be 8.1 g / 2.7 g/ml = 3 ml.
To find the average density of the can and its contentsWeigh the can of soda pop (mass) and then divide by the number of cubic centimeters in the can (volume). Density = mass/volume.To find the density of the aluminum canEmpty the can completely, weigh it, then place it in a filled liquid container to determine the volume of the aluminum. Divide as above to find the density of the aluminum (should be approximately 2.7 grams per cubic centimeter).
Lead has a higher density compared to aluminum. So, to find the mass of lead that occupies the same volume as 100g of aluminum, you would first calculate the volume of the aluminum using its density. Then, you would find the mass of lead that occupies the same volume by using the density of lead.
The mass and volume of aluminum are related by density: mass = volume x density and density depends upon temperature and pressure. Aluminum has a density of 2.70 grams per cubic centimeter in its solid state. In its liquid state, Aluminum has a density of 2.375 grams per cubic centimeter.