The volume of water is 10.0 cm^3.
The volume of the object is calculated by multiplying its length, width, and height: 20 cm * 5 cm * 1 cm = 100 cm³. To find the density, divide the mass (500 g) by the volume (100 cm³): 500 g / 100 cm³ = 5 g/cm³. The density of the object is 5 g/cm³.
To calculate the volume of the box in liters, you need to convert the area (100 cm^2) to cubic centimeters since it is 2-dimensional. If you assume the height of the box is also 100 cm, then the volume would be 100 cm * 100 cm * 100 cm = 1,000,000 cm^3. Finally, convert the cubic centimeters to liters by dividing by 1000 since 1 liter is equal to 1000 cubic centimeters, so the box would hold 1000 liters of water.
The density of the object is 6 g/cm³. Density = mass/volume, mass is 300 g, volume is length x width x height = 10 cm x 5 cm x 2 cm = 100 cm³. Density = 300 g / 100 cm³ = 3 g/cm³.
The volume of the cube is calculated by V = s^3, where s is the side length (5 cm). Therefore, V = 5^3 = 125 cm^3. To find the density, divide the mass by the volume: density = mass/volume = 100 g / 125 cm^3 ≈ 0.8 g/cm^3.
To find the diameter of a ball with a volume of 100 cubic centimeters, use the formula V = (4/3) * pi * (r^3) where V is the volume and r is the radius of the ball. Solve for r, then double it to get the diameter.
Volume = area x height volume is 100 cm cubed height = volume/area = 100/50 = 2 cm
100 cm is a length, not a volume. However, if the volume were 100 cubic cm, the density would be 0.196/100 = 0.00196 grams per cc.
I assume the volume is 100 cubic cm and NOT 100 cm. The volume of a cylinder is cross-sectional area * height 100 = cross sectional area * 30 so that the area of the bottom, or cross section, is 100/30 = 3.333... sq cm
To find the mass of silver with a volume of 100 cm³, you can use the density of silver, which is approximately 10.49 g/cm³. By multiplying the volume by the density, the calculation is 100 cm³ × 10.49 g/cm³ = 1049 grams. Therefore, the mass of silver with a volume of 100 cm³ is about 1049 grams.
Depends on the substance. 'cm^3' is a measure of volume, 'grams' is a measure of mass. The international standard is '1 cm^3 = 1 gram of pure water at STP'. So if you are referring to water then 100 cm^3 = 100 grams.
The volume of the object is calculated by multiplying its length, width, and height: 20 cm * 5 cm * 1 cm = 100 cm³. To find the density, divide the mass (500 g) by the volume (100 cm³): 500 g / 100 cm³ = 5 g/cm³. The density of the object is 5 g/cm³.
1 metre = 100 cm so 1 cubic metre = 100 cm * 100 cm * 100 cm = 1,000,000 cm3. So divide by 106.
100
200
density = mass ÷ volume = 890 g ÷ 100 cm³ = 8.9 g/cm³
100*200*300 = 6,000,000 cubic cm
The answer to this is pretty straightforward. First, the volume a tank measuring 100 by 40 by 60 cm is 100x60x40cm = 240,000 cm^3 or cubic cm. Since one liter = 1000 cm^3, the total tank volume is thus 240 liters. If the tank is half full, then simply halve the amount of water so the tank would contain 120 liters if half full. The same approach can be used for any tank or container assuming it's volume is known, or can be calculated.