It has a density of 200 g/mL
It is 0.87 g/mL.
The three coins would have a volume of 33ml. This can be seen from the simple calculation: 53ml - 20ml = 33ml.
Density is Mass divided by Volume, [ ratio of mass to Volume, m/V ],so this object's density is 75/17= 4.4 g/mL
Density is found by dividing Mass by volume where mass is in grams and volume is in milliliters. 20 liters=20,000 ml so the calculation becomes 158/20,000 which yiels a result of .0079
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.
It is 0.87 g/mL.
This well known formula should lead you on your path: Density (grams/ml) = mass/volume
The three coins would have a volume of 33ml. This can be seen from the simple calculation: 53ml - 20ml = 33ml.
The mass of 40 grams is 40 grams and the volume of 20mL is, wait for it, ... 20 mL!
Density is Mass divided by Volume, [ ratio of mass to Volume, m/V ],so this object's density is 75/17= 4.4 g/mL
this is valid for water only (or any fluid with same density as water) water density (@0°C) = 1000 kg/m^3 (actual value is 999.8395 kg/m^3) = 1 g/ml volume = mass / density = (20 g) / (1 g/ml) = 20 ml
density = mass / volume = 52 / 20 = 2.5 g cm-3 Note the units used. Density is commonly measured in grams per cubic centimeter. However using millilitres does not affect the answer since 1 ml = 1 cm3
Density is found by dividing Mass by volume where mass is in grams and volume is in milliliters. 20 liters=20,000 ml so the calculation becomes 158/20,000 which yiels a result of .0079
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.
density = mass/volume → The density of the rock is the mass of the rock divided by the difference in the volume from before the rock was dropped in and afterwards. Its units are grams/ml
20ml
1 tablespoon of golden syrup equals 30g using a 20ml tablepoon (metric)