Which contains more heat a coffee cup of boiling water or a bathtub of room temperature water explain?

Suppose you were to compare a milliliter of water near the boiling point with a bathtub full of water at room temperature. The bathtub contains a billion times as many water molecules, and therefore has a higher total kinetic energy and more heat.

Which has more thermal energy a cup of boiling water or a bathtub full of warm water?

A cup of boiling water may have a higher temperature than a bathtub of warm water because the average kinetic energy of the particles is higher. However, if you were to sum up the kinetic energy of all of the water molecules in the tub, it would have a higher total thermal energy.

Which has a higher temperature a swimming pool of boiling water or a coffee cup of boiling water which has more heat?

heat always flows from a higher-temperature substance into a lower-temperature substance. in which are the molecules moving faster: a swimming pool of boiling water or a cup of boiling water? a. the swimming pool of boiling water because it contains more energy.

Will 1 cup of boiling water heat up a bathtub at room temperature?

No, boiling is boiling, there is no difference in how you raise water temperature.

Which contains more heat energy?

However the one with the larger water mass has the most heat energy, as every gram of water at the same temperature contains the same amount of heat energy. To have zero heat energy a substance has to be at absolute zero.

Which has more thermal energy an iceberg or a cup of coffee?

The hot coffee has a higher temperature, but not a greater internal energy. Although the iceberg has less internal energy per mass, its enormously greater mass gives it a greater total energy than that in the small cup of coffee.

Which has more heat cup of coffee or swimming pool?

Temperature: The temperature of an object is to do with how hot or cold it is, measured in degrees Celsius. Example 1: A swimming pool at 30°C is at a lower temperature than a cup of coffee at 80°C. But the swimming pool contains more water, so it stores more thermal energy than the cup of coffee.

Which has more heat iceberg or boiling water?

a gigantic iceberg would have a higher total heat than the boiling water, though the pot of water would have a higher average quantifiable energy. What is measured as heat is a measure of the average kinetic molecular energy of the molecules in a substance.

Which contains more heat ice or water?

water has more heat than ice because water has latent heat of 22.5 calory which ice realesed by changing it’s state from liquid to solid.

Which has more heat energy ice or water?

Answer:- Water has more energy than ice, the difference being the heat of melting of the ice. Similarly water vapour contains the heat of vaporization of water, about 1000 Btus per lb of water. You need to add energy to melt ice and that ends up in the water.

How hot is boiling water?

The boiling point of a liquid varies according to the applied pressure; the normal boiling point is the temperature at which the vapour pressure is equal to the standard sea-level atmospheric pressure (760 mm [29.92 inches] of mercury). At sea level, water boils at 100° C (212° F).

What is the difference between heat and thermal equilibrium?

Heat is the flow of thermal energy. The flow of thermal energy stops when the concentration of thermal energy (Temperature) is homogenized. When a system attains this state it is said to heave attained Thermal Equilibrium.

What is the relationship between temperature and energy?

Temperature is related to the average kinetic energy associated with such random motions. It can be seen as a concentration of thermal energy. Where the thermal energy is more concentrated, the temperature is high and vice versa.

What is the temperature of the aluminum ball in the water?

A ball of aluminum (cp = 0.897 J/g°C) has a mass of 100 grams and is initially at a temperature of 150°C. This ball is quickly inserted into an insulated cup with 100 ml of water at a temperature of 15.0°C. What will be the final, equilibrium temperature of the ball and the water?