The Element Gold (symbol Au) melts at 1064.43ºC.
Thus, it would be a solid at 800ºC.
800 degrees Celsius is 1,472 degrees Fahrenheit.
Very hot; almost 800 (797°F) °F.
What makes it so dangerous is, it can be hotter than 800 degrees Celsius (1500 degrees Fahrenheit). It can flow downhill faster than 160 kilometers per hour (100 mi/h).
In fahrenheit it is 1283.2 degrees
For 1 gram of water, you need 4.184 Joule to raise the T from 15 degrees Celsius to 16 degrees Celsius. The values are slightly different for other temperatures. So an estimation of the required energy would be 10 * 4.2 * 80. The 10 comes from 10 gram, the 4.2 from the energy required to heat 1 gram of water 1 degrees Celsius. The 80 comes from the starting temperature to the final temperature. The estimated answer is then 3360 J. For 1 gram of water, you need 4.184 Joule to raise the T from 15 degrees Celsius to 16 degrees Celsius. The values are slightly different for other temperatures. So an estimation of the required energy would be 10 * 4.2 * 80. The 10 comes from 10 gram, the 4.2 from the energy required to heat 1 gram of water 1 degrees Celsius. The 80 comes from the starting temperature to the final temperature. The estimated answer is then 3360 J.
Plasma
800 degrees Celsius = 1,472 degrees Fahrenheit.
800 kelvin = 526.85 degrees Celsius.
thats what im trying to find-.-
800 degrees Celsius is 1,472 degrees Fahrenheit.
800 c = 1472 F
Approx. 600 - 800 degrees C / 1,100 - 1,500 degrees F
800 degrees Fahrenheit/430 degrees Celsius.
The blue part of the flame is 1400 degrees Celsius, and the redder part of the flame is around 800 degrees Celsius.
i think a ten liter container at 800 degrees Celsius has more heat
Very hot; almost 800 (797°F) °F.
Start by taking the number in Celsius and multiply it by 9. Then divide that number by 5, and then add 32. This is how you convert Celsius to Fahrenheit or use the equation F = (9/5)C + 32In this case, the answer is about 1472 degrees Fahrenheit.