Diamond has the highest melting point -- 3820 degrees Kelvin: so burning it would require an even higher heat.
Neither graphite nor diamond melt when heated - at a temperature of about 4800 °C, they sublime into gases. It takes a lot of energy to make them sublime as many strong covalent bonds need to be broken.
To convert 12.5 grams of ice at 0 degrees Celsius to steam at 100 degrees Celsius, you would need to provide heat energy for three main processes: heating the ice from 0 degrees Celsius to 100 degrees Celsius, melting the ice into water at 0 degrees Celsius, and then heating the water from 0 degrees Celsius to steam at 100 degrees Celsius. The total calorie requirement would be determined by the specific heat capacities and heat of fusion and vaporization of water.
The specific heat capacity of water is 4.184 J/g°C. The change in temperature is 35.5°C - 21°C = 14.5°C. Using the formula Q = mcΔT, where Q is the heat energy, m is the mass, c is the specific heat capacity, and ΔT is the change in temperature, you can calculate that the heat required is approximately 1554.7 joules.
It's sort of average. If you have it, you can use it. It will burn more quickly than many hardwoods (oak, ash, hickory)
A diamond forms deep in the Earth's mantle under high pressure and temperature conditions, where carbon atoms are arranged in a crystal lattice structure. This process takes millions of years. Charcoal, on the other hand, is a result of partially burned organic matter and does not undergo the same process as diamond formation.
Actually its 451 and it is how many degrees in Fahrenheit is the heat that will take the book pages to burn down.
At 430 degrees Celsius (806 degrees Fahrenheit), you would take a few hours of steady heat to burn, but the heat would kill you in a few minutes, unless you had some sort of protection.
To raise the temperature of 1 liter of water by 1 degree Celsius, it requires 1 kilocalorie. Therefore, to burn 330 kilocalories and heat cold water from 4 degrees Celsius to 37 degrees Celsius, you would need to drink 33 liters of cold water.
On Earth, about 160 degrees F.
A diamond is not typically measured in degrees, unless you're asking about the degrees involved in the angles of the facets. In that case, there are too many different degrees involved in each faceted stone, which are different, depending on the cut, to count. As an example, follow the link, below, to see the different angles possible in a round, brilliant cut.
100
A diamond has an ideal cut that typically features 58 facets and is designed to maximize brilliance and sparkle. The angles of these facets vary, but the most common pavilion angle is around 40.75 degrees, while the crown angle is about 34 degrees. Overall, the specific angles can change depending on the diamond's cut and proportions.
A diamond, typically referring to the shape of a rhombus or a geometric figure with four equal sides, has four angles. The sum of the interior angles in any quadrilateral, including a diamond shape, is 360 degrees. In a diamond shape, opposite angles are equal, and adjacent angles are supplementary (adding up to 180 degrees).
1370 calories
This heat is 51, 33 cal.
106.
It takes about 55 BTU'S It takes 180 BTU'S to raise 32 degrees to 212 degrees.