Science, asked by m8161388, 8 months ago

Explain the difference between the movement of water molecules at room temperature and at 0°c

Answers

Answered by saumya1130
6

Answer:

the difference is very small and it is the speed of movement of molecules in he room temperature the molecules will vibrate faster but on 0°C it vibrate very less or it will not vibrate

Answered by Jasleen0599
1

The difference between the movement of water molecules at room temperature and at 0°c.

  • Water is found in a liquid condition at room temperature, which can range from 0 to 100 degrees Celsius. This is due to the numerous, tiny, weak hydrogen bonds that hold water molecules together for brief intervals of time. The water molecule is always moving.
  • Finally, you now understand how the three states of water differ in the organisation and motion of the molecules. The molecules in ice are firmly fixed together and vibrate continuously. They slide and bump into one another in water that is still. They are much further apart and move about freely in water vapour.
  • The potential energy decreases as the liquid cools, which causes the molecules to begin to move more slowly. Ice is created when the molecules of water adhere to one another at a temperature of about 0°C. Even at this stage of solidification, molecules are still in motion.
  • Water molecules travel more swiftly as a function of temperature because each molecule gains energy as the temperature rises (according to Kinetic molecular theory). When water is heated to a high enough temperature, the molecules move so much that the hydrogen bonds holding them together begin to dissolve, causing the water to turn into a gas.

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