# What is the volume of 1.0 kg of mercury?

One kilogram of mercury converted to liter equals to 0.074 L.

## What is the volume of mercury in?

Mercury has a mass of 3.3 x 1023kilograms. This mass is contained in a volume of 14.6 billion cubic miles (60.8 billion cubic km).

## How do you find volume using specific gravity?

1. Where Vsg is the Volume from Specific Gravity (m^3)
2. m is the mass of the substance (kg)
3. SG is the specific gravity.

## What is the density of mercury in kg m3?

The value for the density of mercury refers to an ambient pressure of 101325 Pa. The density of mercury at 20 degree C is 13545.848 kg/m3.

## How do I find the volume?

To find the volume of a box, simply multiply length, width, and height — and you’re good to go! For example, if a box is 5×7×2 cm, then the volume of a box is 70 cubic centimeters.

## What is the mass of 40.0 ml of mercury density 13.6 g ml )?

The mercury metal has a mass of 48.3g.

## What is the volume of mercury in cm3 if mass of Mercury is 1kg and density is 13.6 g cm3?

Hence, volume of the given mercury is 10 cm³.

## What is the formula for calculating volume of a sphere?

The formula for the volume of a sphere is V = 4/3 πr³. See the formula used in an example where we are given the diameter of the sphere.

## What is the specific volume calculator?

The specific volume is the reciprocal of the density. It is denoted by the symbol “v”. In short, specific is termed as volume per unit mass of a substance. This online Specific Volume Calculator is useful in calculating the specific volume of a mass unit of substance.

## How do you find volume from density?

Divide the mass by the density of the substance to determine the volume (mass/density = volume). Remember to keep the units of measure consistent. For example, if the density is given in grams per cubic centimeter, then measure the mass in grams and give the volume in cubic centimeters.

## What is the density of mercury 13.6 g cm3 in units of kg m3?

=13. 6×10−3×106=13. 6×103 kg/m3.

## Why is density of mercury is 13600 kg m3?

Density of mercury = 13600 Kgm-3. Density of water at 4oC = 1000 kg m-3. Relative density = density of substance /density of water at 40C. Relative density of mercury = 13600 Kgm-3/1000 kg m-3 = 13.6.

## What is the density of mercury in physics?

The density of mercury is 13.6 g/mL.

## What are 3 ways to calculate volume?

1. Solve for Volume by Space. All physical objects occupy space, and you can find the volume for some of them by measuring their physical dimensions.
2. Solve for Volume by Density and Mass. Density is defined as an object’s mass per a given unit of volume.
3. Solve for Volume by Displacement.

## How do you calculate volume of a liquid?

1. First, determine the total mass of the liquid. Pour the liquid into a container to measure the total mass.
2. Next, determine the mass of the liquid through a table lookup. For water density, this would be approx. 997 kg/m^3.
3. Finally, calculate the liquid volume using the formula LV = M/d.

## What volume of mercury density 13.6 g mL will 0.23 grams occupy?

Therefore, the volume of mercury is 0.017 mL.

## What is the volume of 35.0 g of ethyl alcohol which has a density of 0.79 g mL?

1 Answer. The volume would be 2.01 qt .

## What is the volume of mercury incm3 if the mass m of mercury is 136grams g and density R of mercury is 13.6g cm3 *?

What is the volume of mercury in cm3, if the mass (m) of mercury is 136 grams (g) and density (r)of mercury is 13.6 g/cm3? A:136 cm3.

## What is the block weight in kg if volume is 320 cm3 and density 8.9 g cm3?

| दिये गए ब्लॉक का भार कलोग्राम मे क्या होगा ,यदि इसका आयतन (V) 320 सेमी3. और घनत्व 8.9 ग्राम / सेमी3 है? ans:- 2.848​

## What is the specific volume of mercury in CM³ g?

The answer is: The change of 1 cc – cm3 ( cubic centimeter ) unit of a mercury amount equals = to 13.53 g ( gram ) as the equivalent measure for the same mercury type.

## How do you find volume from area?

It gives the proportion of surface area per unit volume of the object (e.g., sphere, cylinder, etc.). Therefore, the formula to calculate surface area to volume ratio is: SA/VOL = surface area (x2) / volume (x3) SA/VOL = x-1 , where x is the unit of measurement.