0.25 kilograms
1 kg is equal to 1000 g, so 1 kg is four times the weight of 250 g.
The density of the object can be calculated using the formula: Density = Mass / Volume. In this case, the mass is 200 grams and the volume is 250 ml (which is equivalent to 250 cm^3). Therefore, the density is 200 g / 250 cm^3 = 0.8 g/cm^3.
This is simple algebra. Look at the units. If density is .695g/mL, that means that you have .695g for every mL of the liquid. so for 25g, just set up the equation: 25g/x mL = .695g/mL Solve for x to get 35.97 mL of liquid
The energy required to change ice to liquid water is known as the heat of fusion. For ice to water, the heat of fusion is 334 J/g. Therefore, to change 24.7 g of ice to liquid water, the energy required would be 24.7 g * 334 J/g = 8259.8 J.
The heat required to convert ice at 0°C to water at 0°C is known as the latent heat of fusion. For water, this value is 334 J/g. Therefore, to convert 0.3 g of ice to water at the same temperature, the heat required is 0.3 g * 334 J/g = 100.2 Joules.
250ml as 1 ml of water weighs 1 g.
250ml as 1 ml of water weighs 1 g.
Approximately 204 grams of sugar can be dissolved in 250 g of water at 20 degrees Celsius. This is the saturation point for sugar dissolving in water at this temperature.
250 g sodium chloride contain 99,16 g sodium.
The solubility of sodium sulfate in water at 30°C is approximately 49.7 g/100 g of water. Since you have 250 g of water, you can dissolve approximately 124.25 g of sodium sulfate in it at that temperature.
250 grams = 8.81849049 ounces
250 g
64 (g) / 250 (mL) = 0.256 g/mL = 256 g/L
1 in 25. (10/250)
To find out how much water is needed for 250 grams of plaster, you can set up a proportion based on the given ratio of water to plaster. Since 45 mL of water is required for 100 grams of plaster, you can calculate the needed volume for 250 grams by using the equation: ( \frac{45 \text{ mL}}{100 \text{ g}} = \frac{x \text{ mL}}{250 \text{ g}} ) Solving for ( x ) gives ( x = 45 \times \frac{250}{100} = 112.5 ) mL. Therefore, you would need 112.5 mL of water for 250 grams of plaster.
As you know the density of pure water is 1 g/ml. so the mass of 250 ml water is 250 g. Now the no of molecules of water present in 250 g of water = 250 x 6 x 1023/18 = 8.33 x 1024 Now each molecule of water contains total 10 electron. So total no. of electrons in 250 g of water are 10 x 8.33 x 1024 = 8.33 x 1025 electrons.
250 grams is approximately 0.55 pounds and 8.8 ounces.