2,26 Kj are necessary
A gram of C4 explosive produces approximately 6,700 joules of energy when detonated.
Approx 2940 Joules.
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.
The energy output of a Taser, which is often measured in joules, can vary depending on the model. However, most handheld consumer Tasers typically have an energy output of around 0.07 to 0.1 joules per pulse.
2,26 Kj are necessary
46 calories (or 192, 464 joules) for each Celsius degree.
419.1 Joules are required to heat one gram of liquid water from 0.01 degC to 100 deg C. So the answer is 419.1*46 = 19278.6
0000000000000000.11 joules
In principle, those two things measure different things (mass, and energy). To get the mass associated with a certain amount of energy, divide the number of joules (1 kJ = 1000 joules) by the square of the speed of light, i.e., divide by 9 x 1016 (m2/sec2). The answer is in kilograms; you an multiply this answer by 1000 to convert into grams.
Voltage is electrical pressure and Joules is a power rating so other info is needed
To calculate the energy required to heat water, you would need to know the specific heat capacity of water. The specific heat capacity of water is 4.18 J/g°C. Assuming we are heating the water by 1°C, the energy required would be 46.0g * 4.18J/g°C * 1°C = 192.28 Joules.
50.75 joules of energy equates to about 12.1 calories.
Assuming no state change:ΔH = mCΔTm = 4.60 gC = 4.184 J/(g * K)ΔT = 100.0 KΔH = 1920 J = 1.92 kJ
On average, 1 kilogram of coal contains approximately 24,000,000 joules of energy.
A typical lightning bolt releases about 1 billion joules of energy.
The energy content of a banana can vary, but on average, a medium-sized banana contains about 105 kilocalories of energy. This is equivalent to approximately 439,000 joules of energy. The conversion factor is 1 kilocalorie = 4,184 joules. So, a banana provides around 439,000 joules of energy when consumed.