Wood has chemical potential energy, when combustion occurs, you have fire. Fire is mostly heat and light energy.
Burning wood is the process of converting chemical energy in the fuel into thermal energy. Heat transfer is the process of moving thermal energy from one object to another. There are different types oh heat transfer including radiation, conduction and convection. Basically, the wood burning is a spontaneous process, theoretically, but in order for the process to become under way something called the activation energy must be overcome, which means that an energy of that magnitude must be applied to the wood to get it burning (oxidising). This usually comes in the form of a spark or a flame from your lighter. So once you apply that activation energy from your lighter, the wood begins to burn, and the burning of the wood itself produces heat to propagate the process. So long as there is oxygen, fuel (such as wood or octane for example) and the initial spark, then you have fire!
The chemical energy of whatever is burning.
The chemical energy in whatever fuel is burning.
Dendrothermal energy is the energy coming from the plants. It is not replaceable because once you burned the energy of the plant, it will be used. So, you will have to plant again to get the energy needed.
The chemical energy of the fuel is converted into light and heat energy.
Because cellular respiration is the process by which turning ADP into ATP, while burning a fire is just a release of energy. Cellular Respiration= gaining of energy Burning a fire=losing energy.
A burning wood fire, when cooled down or extinguished, leaves wood ashes.
The burning wood needs heat and oxygen as fuel. When burning wood has heat it has energy and water can quickly deprive the wood of its energy. When water comes in contact with the burning wood it takes the heat and the water turns into water vapor, a gas. The gas rises, and therefore, the heat is quickly taken from the burning wood. This is all due to water having a low boiling point. Imagine pouring water on the burning wood. Steam and smoke is produced, which is the water taking the heat into the sky, extinguishing the fire.
Yes it does because think of lighting a fire the card bord burns out while the wood stays burning...
Heat doesn't burn, your fuel burns. Fuel is anything like wood or paper or gas that can catch on fire. To keep it simple, think of burning as being turned into heat energy and light energy Fuel burns, and while it does this it gives off warmth and light. Fire is what all that heat and light looks like. Heat is the warmth given of by something that is burning.
Heat doesn't burn, your fuel burns. Fuel is anything like wood or paper or gas that can catch on fire. To keep it simple, think of burning as being turned into heat energy and light energy Fuel burns, and while it does this it gives off warmth and light. Fire is what all that heat and light looks like. Heat is the warmth given of by something that is burning.
Respiration (turning food into energy), wood into fire etc
Calories are a unit of heat [energy ] to our bodies. Putting food in our bodies is like putting wood [ fuel ] in the fire place.
Ember is a small part of glowing wood, which is still burning. If it is burning for a while it is a piece of coal. It is found near a campside fire, that is still glowing.
Burning is an exothermic reaction.
Burning wood is the process of converting chemical energy in the fuel into thermal energy. Heat transfer is the process of moving thermal energy from one object to another. There are different types oh heat transfer including radiation, conduction and convection. Basically, the wood burning is a spontaneous process, theoretically, but in order for the process to become under way something called the activation energy must be overcome, which means that an energy of that magnitude must be applied to the wood to get it burning (oxidising). This usually comes in the form of a spark or a flame from your lighter. So once you apply that activation energy from your lighter, the wood begins to burn, and the burning of the wood itself produces heat to propagate the process. So long as there is oxygen, fuel (such as wood or octane for example) and the initial spark, then you have fire!
The chemical energy of whatever is burning.