According to the question a bucket full of hot water has more heat energy because heat is the sum of kinetic energy of all the vibrating molecules and number of molecules is large in a bucket. A burning match stick has higher temperature because kinetic energy of the molecules in it is maximum that is average K.E becomes more due to less number of molecules in match stick.
The bucket would contain far more heat but at most it's temperature could only be 212* F or 100* C maximum, the temperature of boiling water. ... The burning matchstick would obviously have the higher temperature, but the total heat content above absolute zero would be way higher for the bucket full of hot water.
Warm water has more energy than cold water, which means that molecules in warm water move faster than molecules in cold water. ... Since the molecules in warm water move around faster, the food coloring spreads out quicker in the warm water than in the cold 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.
So hot water takes up more space than cold water. The amount of space something takes up is called volume. If you were to have 2 cups of water, one of hot water and one of cold water with equal volumes, the cold water would have more molecules. ... The difference between them is the speed of the molecules jiggling around.
When it comes to oxygen, the match has a secret supply. Stored inside the match head is another chemical called “potassium chlorate”. When it gets hot, it releases a lot of extra oxygen and heat. This makes the match head burn quickly and strongly.