MJ means megajoule, and mega is a prefix that means "million".
They are all measurements in the Unit of the Joule. The prefix Kilo means 1000, and the prefix Mega means 1,000,000. So one KiloJoule is 1000 Joules, and one MegaJoule is 1,000,000 Joules. The only difference is QUANTITY.
One million joules of energy is equivalent to one megajoule (MJ).
In physics, MJ stands for "mega-joule," which is a unit of energy equal to one million joules. It is used to represent large amounts of energy in various applications and systems.
1 BTU = ~1,055.056 joules
The energy content of wood varies depending on the type and moisture content, but on average, 1 kilogram of wood contains approximately 16-20 megajoules (MJ) of energy.
One MJ ,Mega Joule, is aqual to 1 million joules. Therefore: 600/1000000= 0.0006J
A gram of ANFO explosive yields about 6300 Joules of energy. The value is usually expressed as 6.3 MJ/kg.
On average, a stick of dynamite contains about 1 billion joules of energy. This energy is released in an explosive reaction when the dynamite is detonated.
Michael Jackson Mega joules.
They are all measurements in the Unit of the Joule. The prefix Kilo means 1000, and the prefix Mega means 1,000,000. So one KiloJoule is 1000 Joules, and one MegaJoule is 1,000,000 Joules. The only difference is QUANTITY.
One million joules of energy is equivalent to one megajoule (MJ).
In physics, MJ stands for "mega-joule," which is a unit of energy equal to one million joules. It is used to represent large amounts of energy in various applications and systems.
Kilo means 1000 So the answer is 1/1000 = .001 kJ
Joules and multiples - e.g. kJ and MJ and GJ
1 BTU = ~1,055.056 joules
The energy content of wood varies depending on the type and moisture content, but on average, 1 kilogram of wood contains approximately 16-20 megajoules (MJ) of energy.
The energy content of coal varies depending on its type and grade, but on average, coal contains about 24 megajoules (MJ) per kilogram. This means that 1 kilogram of coal can produce approximately 24,000 joules of energy when burned. Higher-grade coals, such as anthracite, can have energy contents exceeding 30 MJ/kg, while lower-grade coals may have less.