If the energy is heat, the water will warm up. If it is kinetic, like throwing it against the wall, the glass will absorb the energy and probably smash into bits.
The added energy will raise the temperature of the ice water. Initially, the ice will absorb the energy and melt into liquid water. Once all the ice is melted, the additional energy will continue to raise the temperature of the water until it reaches its boiling point.
If energy is added to a glass of ice water, the ice will absorb the energy and begin to melt. If energy is removed, the ice will give off heat to its surroundings and may freeze further. Ultimately, the temperature of the glass of ice water will change based on whether energy is added or removed.
Adding energy to a glass of water typically increases the temperature, causing the water molecules to move faster. Removing energy from the water would cause it to cool down, slowing down the movement of water molecules.
When heat energy is added to ice, the ice melts and turns into water. This process is called melting. As more heat energy is added, the water will continue to heat up until it reaches its boiling point, at which point it will turn into steam.
No, a glass of water sitting on a table does not have potential energy. Potential energy is the energy an object has due to its position or state, such as when the glass of water is raised above the table.
When thermal energy is added to dry ice (solid carbon dioxide), it undergoes sublimation and directly changes from a solid to a gas, without passing through a liquid phase. On the other hand, when thermal energy is added to regular ice (solid water), it melts into liquid water, and then if more energy is added, it evaporates into steam (water vapor).
If a sufficient amount of energy is added to a glass of ice water, the ice will melt, and if a sufficient amount of energy is removed, the water will freeze solid.
If energy is added to a glass of ice water, the ice will absorb the energy and begin to melt. If energy is removed, the ice will give off heat to its surroundings and may freeze further. Ultimately, the temperature of the glass of ice water will change based on whether energy is added or removed.
When electrical energy is added to water it creates electric shock.
That depends on how much energy, but simply:added, more ice melts to water - if enough is added all the ice will melt and the temperature risestaken away, more water freezes to ice - if enough is taken away all the water wii freeze and the temperature will dropAs long as there is both ice and water the temperature will hold constant.
Adding energy to a glass of water typically increases the temperature, causing the water molecules to move faster. Removing energy from the water would cause it to cool down, slowing down the movement of water molecules.
Entropy increases.
When heat energy is added to ice, the ice melts and turns into water. This process is called melting. As more heat energy is added, the water will continue to heat up until it reaches its boiling point, at which point it will turn into steam.
No, a glass of water sitting on a table does not have potential energy. Potential energy is the energy an object has due to its position or state, such as when the glass of water is raised above the table.
When salt is placed in a watch glass, it remains as solid crystals. If water is added, the salt will dissolve depending on the amount of water added. The solution may evaporate, leaving behind the salt crystals.
happens
When thermal energy is added to dry ice (solid carbon dioxide), it undergoes sublimation and directly changes from a solid to a gas, without passing through a liquid phase. On the other hand, when thermal energy is added to regular ice (solid water), it melts into liquid water, and then if more energy is added, it evaporates into steam (water vapor).
As the ice cubes are added to the glass, they displace the water that was already in the glass. The level of water in the glass will rise slightly due to the displacement caused by the ice cubes, but the total volume of water and ice combined will remain the same as before the ice cubes were added.