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After the water is boiled its mass stays the same yes or no?
After water has been boiled, its mass will stay the same.
Can water be boiled more than once?
yes it can
What volume of water can be boiled by 3.0 kJ of energy?
3.0 kJ × 1 mol/40.65 kJ× 18.02 g/mol × 1 mL/1 g= 1.3 mL
Why all the answers in Answers.com is always wrong?
Because once water has boiled, it becomes steam
Is boiled water distilled water?
No, boiled water is simply boiled. Distilled water is when the steam from the boiling is gathered and rebottled.
When water is boiled the water changes from?
When water is boiled it changes from liquid to a gas.
Which dissolves faster salt or water in boiled water?
Boiled water.
What is a water called when it is boiled?
When water is boiled, it is called steam.
How do you calculate the volume of water boiled off?
To calculate the volume of water boiled off, you need to know the initial volume of water, the heat input, the time it was heated, and the specific heat capacity of water. You can use the equation Q = mcΔT, where Q is the heat energy, m is the mass of water, c is the specific heat capacity of water, and ΔT is the change in temperature. Once you have the heat energy, you can convert it to volume using the density of water.
Do plants grow faster in salt water or boiled water or plain water?
boiled water
How were you able to separate the salt from the water?
In order to separate salt from water, you need to boil the water. Once all of the water has evaporated, the salt will be at the bottom of the container the water was boiled in.
What volume of water can be boiled by 3.0kJ of energy?
To determine the volume of water that can be boiled by 3.0 kJ of energy, we first need to know the amount of energy required to boil water. The latent heat of vaporization of water is approximately 2260 kJ/kg. Therefore, the volume of water that can be boiled is calculated as follows: [ \text{mass} = \frac{3.0 \text{ kJ}}{2260 \text{ kJ/kg}} \approx 0.00133 \text{ kg} ] Since the density of water is about 1 kg/L, this corresponds to approximately 1.33 mL of water that can be boiled with 3.0 kJ of energy.
