Yes, although the density will be a little bit lower.
it would be the same
The weight of 400 grams of water is 400 grams because the weight of water is equivalent to its mass.
length: ruler volume: i dont know the name of this process. put it into a container with certain amount of water and measure the increase of water level. the volume is the base area of the container multiplies the increase of water level temperature: thermometer mass: balance (most preferably an electronic one)
The remaining water in Kia's bottle has a mass of about 500 grams.
The specific heat capacity of water is 1 calorie/gram °C. So, to raise the temperature of the water by 60°C, 300 calories of heat is required. Therefore, the mass of the water can be calculated using the formula mass = heat energy / (specific heat capacity * temperature change). Substituting the values given, mass = 300 calories / (1 calorie/gram°C * 60°C) = 5 grams.
The answer depends on the temperature, but at room temperature (20 deg C), 100 ml of water would have a mass of 99.82 grams.
For fresh water at room temperature, it is 25 grams
The water has a mass of roughly 560 grams, depending on its purity and temperature. We have no idea what the mass of the balloon is.
At standard temperature and pressure, ml = grams for water, so at STP, 134.63 ml of water = 134.63 grams.
For pure clean water at standard temperature and pressure, 850 ml has a mass of 850 grams.
If you have pure water, standard temperature, and standard pressure,then 100 milliliters of water has 100 grams of mass.(Note: 'milliliters', not 'millimeters'.)
To calculate the mass of water, you can use the specific heat capacity of water which is 4.18 J/g°C. The formula to calculate the mass of water is: mass = energy / (specific heat capacity * change in temperature). Plugging in the values, the mass of water involved would be approximately 50.1 grams.
Add water (vapor) ... evaporation. Lower the temperature of the air mass.
q(joules) = mass * specific heat * change in temperature q = (500 grams H2O)(4.180 J/goC)(100o C - 20o C) = 1.7 X 105 joules ================add this much heat energy to the water
3 liters of water weighs 3000 grams or 3 kilograms
Assuming density is 1 gram/cc Answer = 28.33 grams
The answer will depend on the temperature and pressure. At the pressure of 1 atmosphere (760 millimetres of mercury), 100 ml of pure water will have a mass of 99.9840 grams at 0 deg C, 99.9972 grams at 4 deg C (its greatest mass), 99.8203 grams at 20 deg C ("room" temperature), 95.84 grams at 100 deg C.