Mass cannot be measured in mL so the question makes no sense.
Density = Mass/Volume = 6/5 g/mL of 1.2 g/mL
Density is just mass per volume (usually g/mL). Take the specified mass, and then just divide it by the specified volume. For example, if you have 10g of a liquid with volume of 5mL, its density is (10g)/(5mL) = 2g/mL.
Density = Mass/Volume = 25g/5ml = 5 g/ml
Yes, 5ml is smaller than 25ml. 5cc < 25cc's. (1 ml = 1 cc)
1ml volume = 1 cm^3 volumeso take 10.78 g/cm^3 multiply by 5 cm^3 and the cm^3 cancel out leaving you the mass.10.78 g/cm^3 x 5ml = 53.9 g
The density would be 6 g/mL. To calculate density, divide the mass (30g) by the volume (5mL). Density = mass/volume = 30g / 5mL = 6 g/mL.
You need the mass and volume to calculate the density
Density = Mass/Volume = 6/5 g/mL of 1.2 g/mL
Density is just mass per volume (usually g/mL). Take the specified mass, and then just divide it by the specified volume. For example, if you have 10g of a liquid with volume of 5mL, its density is (10g)/(5mL) = 2g/mL.
Density = Mass/Volume = 25g/5ml = 5 grams per mL.
Density = Mass/Volume = 25g/5mL = 5 g per mL
Density = Mass/Volume = 25g/5ml = 5 g/ml
The mass of a liquid of volume 5ml would depend on the density of the liquid. Pure water would have a mass of 5 grams/5ml at 4 degrees C. ; 5ml of mercury has a mass of approx 67.7 grams; 5ml of gasoline has a mass of approx 3.69 gms
The density of the object is 2 g/ml. Density is calculated by dividing the mass of an object by its volume. In this case, the mass is 10g and the volume is 5 ml.
The density of the object would be 3000 g/ml. Density is calculated by dividing the mass of an object by its volume. In this case, 15000 g / 5 ml = 3000 g/ml.
The density of the substance is 1.70 g/mL. This is calculated by dividing the mass (45.0g) by the volume (26.4mL).
Density is mass per unit volume, so it is possible for an object with less mass but a smaller volume to have a greater density than an object with greater mass but a larger volume. Density compares how tightly packed the matter in an object is, rather than just its total mass.