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What mass of natural gas CH4 must you burn to emit 267 kJ of heat?
Wiki User
∙ 9y ago
5.33g CH4 must be burned to emit 267 kJ of heat.
Wiki User
∙ 9y ago
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What mass of natural gas CH4 must you burn to emit 270kJ of heat?
The needed mass of methane is approx. 3 g.
Why the appearance and mass of sodium changes when it reacts with oxygen?
it will burn up
When you burn coal does the mass stay the same?
Your question isn't rigorous enough. When you burn coal you are combining carbon from the coal with oxygen in the air. So the mass of Carbon Dioxide created is greater than the original mass of coal. There is no mass destroyed however, you just have to be more rigorous in the parameters of your question.
What happens to heat capacity if mass id doubled?
Heat capacity is measured either for one gram or one mole of a substance so the mass of substance does not matter.
How would you go about finding the specific heat of Glycerin?
The specific heat of any substance can be found by calculating the amount of heat required to raise a unit mass quantity of it by 1 degree. The relationship between heat and temperature change is Q=cm(change in T) where Q is heat in Joules, c is the specific heat, m is the mass, and T is the temperature.
What mass of natural gas CH4 must you burn to emit 270kJ of heat?
The needed mass of methane is approx. 3 g.
Can bio mass energy be converted into Heat energy?
Sure, burn it.
How is the different from the planets?
The Sun is a star, which means that it is made up of mostly Hydrogen and has enough mass to carry out nuclear reactions within its core and emit its own light and heat. The planets, even the gas giants, do not have enough mass to burn and glow on their own. There are more differences, but they vary from planet to planet.
A paraffin wax candle is used to heat up a can of water. The candle had a mass of 15.75g before the burn and 14.20g after the burn The can contained 250.0 of water at an initial temperature of 13.0 C?
A paffin wax candle is used to heat up a can of water. The candle had a mass of 15.75g before the burn and 14.20g after the burn. The can contained 250.0 of water at an initial temperature of 13.0 C. What is the heat of combustion in kJ/g of paraffin? The specific heat capacity of water is 4.184 J/(g C)
What happens after a medium mass star becomes a white dwarf?
Nothing. It will just slowly and I mean very slowly, emit heat back into space. This will take billions and billions of years. After it has cooled to a point where no heat is emitted into space it will become a black dwarf.
When you burn logs does mass or volume change?
Mass
What is the relationship between the mass of a material and the amount it can transfer?
Heat is transferred based on the temperature of a mass (relative to the cooler mass it is transferring heat to) and the heat capacity of the mass. The total heat capacity is a product of the mass and the specific heat, i.e. Heat capacity = mass x specific heat. The hotter the mass, the more heat it can transfer. The greater the mass, the more heat it can transfer per degree of temperature drop. 100 kg of boiling water could be expected to be able to transfer 100 times the amount of heat of just 1 kg of boiling water for a drop of 1 °C.
What is the relationships between the mass of a material and the amount of heat it can transfer?
Heat is transferred based on the temperature of a mass (relative to the cooler mass it is transferring heat to) and the heat capacity of the mass. The total heat capacity is a product of the mass and the specific heat, i.e. Heat capacity = mass x specific heat. The hotter the mass, the more heat it can transfer. The greater the mass, the more heat it can transfer per degree of temperature drop. 100 kg of boiling water could be expected to be able to transfer 100 times the amount of heat of just 1 kg of boiling water for a drop of 1 °C.
What is the relationship between the mass of a material and the amount of heat transfer?
Heat is transferred based on the temperature of a mass (relative to the cooler mass it is transferring heat to) and the heat capacity of the mass. The total heat capacity is a product of the mass and the specific heat, i.e. Heat capacity = mass x specific heat. The hotter the mass, the more heat it can transfer. The greater the mass, the more heat it can transfer per degree of temperature drop. 100 kg of boiling water could be expected to be able to transfer 100 times the amount of heat of just 1 kg of boiling water for a drop of 1 °C.
What is the relationship between the mass of a material and the amount of heat it can transfer?
Heat is transferred based on the temperature of a mass (relative to the cooler mass it is transferring heat to) and the heat capacity of the mass. The total heat capacity is a product of the mass and the specific heat, i.e. Heat capacity = mass x specific heat. The hotter the mass, the more heat it can transfer. The greater the mass, the more heat it can transfer per degree of temperature drop. 100 kg of boiling water could be expected to be able to transfer 100 times the amount of heat of just 1 kg of boiling water for a drop of 1 °C.
Why does mass count in heat transfer?
Mass counts because when you have a block of some material at some heat. Then that is the average heat of every molecule in that block. The more mass there is the more energy is available to be transfered as heat.
Does mass increase as heat is applied?
No. Mass does not increase as heat is applied. Mass is the amount of matter in a body and cannot be changed by any physical or chemical process. Volume will increase when heat is applied.
