The density of lead is 11340 kilograms per cubic meters or 11.34 grams per cubic centimeters.
The density of the lead chess piece can be calculated by dividing its mass (51.4 g) by its volume (55 ml). Density = mass/volume. Therefore, the density of the lead chess piece is approximately 0.935 g/ml.
To find the mass of lead in grams, you would need to know the density of lead. The formula to calculate mass is mass = density x volume. The density of lead is approximately 11.3 g/cm3. Once you have the density value, you can input 140.0 cm3 into the formula to find the mass in grams.
The density of lead is approximately 11.34 grams per cubic centimeter. To find the mass of 100 milliliters of lead, we first need to convert milliliters to cubic centimeters since they are equivalent. So, 100 milliliters is equal to 100 cubic centimeters. Using the density of lead, we can calculate the mass by multiplying the volume (100 cm³) by the density (11.34 g/cm³), resulting in a mass of 1134 grams.
Density = Mass/Volume so Volume = Mass/Density The density of lead is 11.3 grams per cm3 so volume = 282.5/11.3 = 25 cm3
The density of lead is 11.34 g/cm³. To calculate the volume of the lead sample, divide the mass (28.5 g) by the density (11.34 g/cm³) to get the volume. wäre you will be working with.
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.
water has less density than lead. Mass depends on its volume
The mass of lead would be greater, as lead has a higher density compared to silver. Density is mass divided by volume, so even if both samples have the same volume, the lead sample would be heavier due to its higher density.
Both 1kg of lead and 1kg of polystyrene have the same mass, despite lead being much denser than polystyrene. Density is defined by mass divided by volume, so if the mass is the same, the volume must differ to maintain the same density. In this case, the volume of lead will be significantly smaller than the volume of polystyrene, making them have the same density.
The densities of copper and lead respectively are 11.34 and 8.92. Call the fraction by mass of copper in the mixture f. Then, from the definition of density, 8.92 f + 11.34(1- f) = 9.70, or 8.92 f + 11.34 - 11.34 f = 9.70. or -2.42 f = -1.64, or f = 0.678, to the justified number of significant digits.
Yes, a pound of cotton and a pound of lead have the same density because density is a property of a material that is independent of its weight. Density is defined as mass per unit volume, so if both the cotton and lead weigh the same, they should have the same density.
If mass increases while volume remains constant, density will also increase. This is because density is calculated by dividing mass by volume, so any increase in mass without a corresponding increase in volume will lead to a higher density value.