it gets hotter has it starts to boil more so its more likely to be hotter than ust warm water in a pan in the beginning of the boiling
it doesn't change, as all of the energy is used to convert the water into gas, so the temperature stays ata a constant 100 until all of the water has evaporated
100 Degree's Celsius
212 Degrees Fahrenheit
The beaker itself may be hotter, but the water inside turns to steam at 212.
it depends on hot water
The temperature of the water rises.
With the microwaved water, it pretty much depends on the microwave Owens temperature. Though boiling water is 100 degrees Celsius. (I would like to add): The water's temperature depends how long the microwave runs and the power of the microwave. However, if the water is boiling in the microwave, it is the EXACT same temperature as water boiling on the stove. The microwave is just another method of boiling the water.
When the ammonium chloride dissolves in the water, it is an endothermic reaction. The energy for the reaction comes from the water. Since the water is losing energy, the temperature of the solution decreases, which in turn decreases the temperature of the beaker because of heat transfer.
116
212 F
In Celsius, it is 100 degrees.
boiling point
boiling point
Yes, as the water in the beaker will finally get the same water temperature in the water bath.
boiling water
The temperature of boiling water at sea level is 100 The temperature of boiling water at sea level is 211.149°F.
Generally, you can find the heat capacity for an element by placing a small amount of the element in a beaker of boiling water. Then you allow the element to sit in the water until it becomes the same temperature of the water.
The boiling point of sea water is higher compared with pure water. Temperature remain constant during boiling.
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.
I guess none. Why? The given is that the water is boiling -- it is turning into vapor.
the time of boiling of water depends upon the temperature provided to water.
Zero degrees C= Freezing temperature for water and one hundred degrees C= Boiling temperature for water.
Kelvin temperature scale indicates a boiling water temperature of 373º.