It depends on temperature and pressure.
Assuming 25.0ºC and 1.00 atmospheres then 125 g CO2 occupies 54.7 dm3.
The volume of ammonia is 19,5 L.
The density is calculated by dividing the mass by the volume. In this case, the density would be 1.6 g/mL (200 g / 125 mL).
To calculate the volume of 15 g of CO2 (carbon dioxide) at standard temperature and pressure (STP), we first determine the molar mass of CO2, which is approximately 44 g/mol. Using the ideal gas law, we know that 1 mole of any gas occupies 22.4 liters at STP. Therefore, the volume of 15 g of CO2 can be calculated as follows: ( \text{Volume} = \left(\frac{15 \text{ g}}{44 \text{ g/mol}}\right) \times 22.4 \text{ L/mol} \approx 7.6 \text{ L} ). Thus, the volume of 15 g of CO2 is approximately 7.6 liters at STP.
A gas sample is most likely to take the shape of and occupy the total volume of its container because gas particles are highly compressible and move freely within the container to fill all available space. Liquids also take the shape of their container but may not occupy the total volume due to intermolecular forces preventing complete expansion. Solids have a fixed shape and volume, so they do not conform to the shape of their container.
1.6 g/ml
The volume of ammonia is 19,5 L.
To answer this the volume is needed, expressed in millilitres or cubic centimetres.
0.00922 g of H2 gas will occupy approximately 0.100 L at STP
Density = mass/volume = 155/125 = 1.24 g/cm3.
The density is calculated by dividing the mass by the volume. In this case, the density would be 1.6 g/mL (200 g / 125 mL).
To find the volume of 15.7 g of calcium chloride with a density of 2.50 g/cm³, you would use the formula: Volume = Mass / Density. Plug in the values: Volume = 15.7 g / 2.50 g/cm³ = 6.28 cm³. Therefore, 15.7 g of calcium chloride would occupy a volume of 6.28 cm³.
A gas sample is most likely to take the shape of and occupy the total volume of its container because gas particles are highly compressible and move freely within the container to fill all available space. Liquids also take the shape of their container but may not occupy the total volume due to intermolecular forces preventing complete expansion. Solids have a fixed shape and volume, so they do not conform to the shape of their container.
1.6 g/ml
Density is equal to mass divided by volume (d= m/v). So m= 250 g and v = 125 cm cubed (cm3), there fore density is 2 g/cm3.
The volume 396g would occupy depends on the density of the substance. To calculate the volume, you need to know the density of the material. By dividing the mass (396g) by the material's density (in g/cm^3 or g/mL), you can determine the volume occupied by 396g of that substance.
The volume of 1 ml. of water equals 1 cm3.
The density of calcium chloride is approximately 2.15 g/cm3. By dividing the mass by the density, you can calculate the volume. In this case, 15.7 g of calcium chloride would occupy around 7.3 cm3 of volume.