The volume of air with a mass of 100g would depend on the density of the air. The density of air at room temperature and pressure is approximately 1.2 kg/m^3. Using the formula density = mass/volume, you can calculate that the volume of 100g of air would be approximately 0.083 m^3.
The density of the object is calculated by dividing the mass (100g) by the volume (25cm3). Therefore, the density would be 4 g/cm3.
The mass density of mercury is approximately 13.6 g/cm^3. The volume of mercury would depend on the amount of mass you have and can be calculated using the formula: volume = mass / density.
Lead has a higher density compared to aluminum. So, to find the mass of lead that occupies the same volume as 100g of aluminum, you would first calculate the volume of the aluminum using its density. Then, you would find the mass of lead that occupies the same volume by using the density of lead.
Oh, dude, density is just mass divided by volume, like basic math, right? So, for this object, 100g divided by 10ml gives you a density of 10g/ml. It's like how much stuff is packed into that space, you know?
The volume of air with a mass of 100g would depend on the density of the air. The density of air at room temperature and pressure is approximately 1.2 kg/m^3. Using the formula density = mass/volume, you can calculate that the volume of 100g of air would be approximately 0.083 m^3.
The density of the object is calculated by dividing the mass (100g) by the volume (25cm3). Therefore, the density would be 4 g/cm3.
The idea is to divide the mass by the volume.
The mass density of mercury is approximately 13.6 g/cm^3. The volume of mercury would depend on the amount of mass you have and can be calculated using the formula: volume = mass / density.
Density = Mass Density = 100g/50 cm. Density = 2g/cm3---------Volume.
Lead has a higher density compared to aluminum. So, to find the mass of lead that occupies the same volume as 100g of aluminum, you would first calculate the volume of the aluminum using its density. Then, you would find the mass of lead that occupies the same volume by using the density of lead.
Considering that grams are a unit of mass, their mass would still be 100g. If you used a unit of weight, such as pounds, the relative weight of an object would change from planet to planet. On Mercury, a person who weighed 100 lbs normally would instead weigh 38 lbs.
density = mass/volume = 100g/50mL = 2g/mL
10 grams/ cc. That is 10 times more dense than water.
Density is defined as mass divided by volume, therefore: 100g/25cm3 = 4 g/cm3
Density = Mass/Volume = 100/200 = 0.5 grams per ml.
Use a mass balance to find the mass then find the volume by V=mass/density.