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The densest elemental metal has a density that is less than half that, so I suspect your question has no sensible answer.

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Q: What metal has a density of 52 g ml?
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What is the density of 48 g of a metal raises the level of water in a graduate cylinder from 25 ml?

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.


What is density of the unknown metal that has of mass 158g and volume of 20mL?

The density of the unknown metal is 7.9 g/mL. This is calculated by dividing the mass (158g) by the volume (20mL).


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?

First, calculate the volume of the metal by subtracting the initial volume of water from the final volume (25.28 ml - 21.27 ml = 4.01 ml). Then, calculate the density of the metal using the formula: density = mass/volume. The mass of the metal is 12.24 g, and the volume is 4.01 ml, so the density is 3.05 g/ml.


What metal has a density of approximately 4.2 g per ml and if possible please provide a trustworthy link to go with it?

I am not aware of an elemental metal whose density is around 4.2 grams per ml. However, among common metals, aluminium has a density of 1.7 grams per ml and copper has a density of 9.0 g/ml. Therefore, a suitable alloy of the two would have a density of 4.2 g/ml. Zinc (7.13 g/ml) could also be part of the alloy.


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.

Related questions

What metal has the density of 5 gmL?

Lead has a density of approximately 11.3 g/mL, so it does not have a density of 5 g/mL. Copper has a density of 8.96 g/mL, which is closer to 5 g/mL but not exactly the same.


What is the density of 48 g of a metal raises the level of water in a graduate cylinder from 25 ml?

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.


What is density of the unknown metal that has of mass 158g and volume of 20mL?

The density of the unknown metal is 7.9 g/mL. This is calculated by dividing the mass (158g) by the volume (20mL).


When a piece of metal mass of 91.66 g is dropped into a graduated cylinder containing 21.76 ml of water the water level rises to 28.69 ml. What is the density of the metal?

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.


What is the density of 52.9 gram metal in 15 ml of water volume rises to 39.3?

The density of the metal can be calculated by finding the mass of the metal and dividing it by the volume of water displaced. First, subtract the initial volume of water (15 ml) from the final volume (39.3 ml) to find the volume of water displaced (24.3 ml). Density = mass of metal (52.9 g) / volume of water displaced (24.3 ml). Calculate the density using these values.


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?

First, calculate the volume of the metal by subtracting the initial volume of water from the final volume (25.28 ml - 21.27 ml = 4.01 ml). Then, calculate the density of the metal using the formula: density = mass/volume. The mass of the metal is 12.24 g, and the volume is 4.01 ml, so the density is 3.05 g/ml.


What is the density of a metal object with a mass 25 g and a volume of 5 ml?

Density = Mass/Volume = 25g/5mL = 5 g per mL


What metal has a density of approximately 4.2 g per ml and if possible please provide a trustworthy link to go with it?

I am not aware of an elemental metal whose density is around 4.2 grams per ml. However, among common metals, aluminium has a density of 1.7 grams per ml and copper has a density of 9.0 g/ml. Therefore, a suitable alloy of the two would have a density of 4.2 g/ml. Zinc (7.13 g/ml) could also be part of the alloy.


If the density equals 9.28gmL than what metal is it?

Based on the density of 9.28 g/mL, the metal may be platinum (density of approximately 21.45 g/mL).


What is the volume of a piece of metal if the density is 2.3glml and the mass is 1.5g?

Density = Mass/Volume so Volume = Mass/Density. That is, Vol = 1.5 g/2.3 g/ml = 0.652 ml approx.


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.


What is the density of a metal sample of a 37.51-g sample placed into a graduated cylinder increases the liquid level from 50.0 ml to 57.5 ml?

The volume of the metal sample can be calculated as the difference in the liquid level before and after adding the metal. In this case, the volume displaced by the metal is 7.5 ml. The density of the metal sample is then calculated by dividing the mass of the sample (37.51 g) by the volume displaced (7.5 ml), resulting in a density of 5.0 g/ml.