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well acuttaly a boiling point is higher because the boiling point is at 100 degrees and like so a melting point is a 0 degrees and a boiling point the particles spread out quicker but the melting point the particles are a strong bond so cannot be squahsed and are at a lower rate of temprrature/heat
It is not true; evaporation occur at the surface of a liquid and the temperature is under the boiling point.
The freezing point of water decreases when the number of dissolved molecules (or better particles) in the solvent increases. This is called freezing point depression and you can easily find the relation between the quantity of particles dissolved and the freezing point on Wikipedia.
Any solvent can; the more ions it dissipates into, the more it will change the boiling point (in general). You shouldn't expect a very large change, however. Pressure tends to affect boiling point more than solvents.
Because the metallic bonds between their particles are very strong.
well acuttaly a boiling point is higher because the boiling point is at 100 degrees and like so a melting point is a 0 degrees and a boiling point the particles spread out quicker but the melting point the particles are a strong bond so cannot be squahsed and are at a lower rate of temprrature/heat
The particles start to move faster as the temperature rises. Eventually, it reaches the boiling point, and becomes a gas.
The boiling point won't decrease
The boiling point of chlorine is -34.6 degrees C and the boiling point of iodine is 184 degrees C so iodine's boiling point is massively higher
When it reaches its boiling point.
Yes. Not by more than a few degrees Centigrade, though. It's a matter of adding particles to the water. The type of particles is largely irrelevant, but the particles must be heated as well, increasing the boiling point, depending on the amount of particles added.
It imparts to them more kinetic energy.
Boiling point is dependent from pressure. Solutes also have a great impact on the freezing and boiling point.
Lead(II) sulfate melts at over a 10000C. I can't find a boiling point and I am not surprised- I would expect decomposition at such temperatures.
No. Salt makes the freezing point of water lower and the boiling point higher. The particles of salt get in the way of crystal formation when freezing. They also get in the way of particles trying to escape when boiling.
It is not true; evaporation occur at the surface of a liquid and the temperature is under the boiling point.
The melting or the boiling point.