The water molecules would speed up, but not to the point of boiling.
Hey there......... when water is heated the molecules of water i.e. Hydrogen and oxygen gets heated and get lite and forms vapour which is carried on by air
Beaker A: 15 C Beaker B: 37 C Beaker B contains water molecules that have the greater kinetic energy (on average). Since beaker B is at a higher temperature than beaker A, the water molecules must be moving faster in beaker B than in beaker A (on average). If heat is being applied to the beakers, then the increased amount of heat applied to beaker B is greater, and the heat will cause the water molecules in beaker B to move faster than the water molecules in beaker A (on average). Kinetic energy = (1/2) (mass) (velocity)^2 Since the velocity of the a water molecule in beaker B is on average greater than the velocity of an average water molecule in beaker A, the water in beaker B has a higher kinetic energy.
Water can be condensed on the bottom of the glass cover.
The beaker has a high chance of shattering.
The bonds beween the water molecules, H2O, are called hydrogen bonds.
The liquid molecules are transformed in gas molecules.
The water turns purple, and gets hotter. And what happens to the beaker? Depending on what it is made of, and the temperature to which it is heated, it might melt.
The liquid molecules are transformed in gas molecules.
what happens to water molecules when they are heated
Its molecules become heated.
Water will enter the sac and it will swell
Hey there......... when water is heated the molecules of water i.e. Hydrogen and oxygen gets heated and get lite and forms vapour which is carried on by air
They vibrate faster
Heating water molecules causes them to move faster and faster. Water when cool is in a way (sticky). When heated the water molecules are moving far too quickly stick together. The heated water molecules become less dense and may stick to air molecules. Floating into and combining with the atmosphere.
Beaker A: 15 C Beaker B: 37 C Beaker B contains water molecules that have the greater kinetic energy (on average). Since beaker B is at a higher temperature than beaker A, the water molecules must be moving faster in beaker B than in beaker A (on average). If heat is being applied to the beakers, then the increased amount of heat applied to beaker B is greater, and the heat will cause the water molecules in beaker B to move faster than the water molecules in beaker A (on average). Kinetic energy = (1/2) (mass) (velocity)^2 Since the velocity of the a water molecule in beaker B is on average greater than the velocity of an average water molecule in beaker A, the water in beaker B has a higher kinetic energy.
Water can be condensed on the bottom of the glass cover.
boiling point