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 + 32
In this case, the answer is about 1,947.2 degrees Fahrenheit.
The Kelvin scale uses the same "degree" size as the Celsius scale, but begins 273.15° lower, at absolute zero. To convert any Celsius temperature to Kelvins, add 273.15. For this example, 1064 °C = 1337.15 K
Percentage increase = 100*(1064/800 - 1) = 33.0%
1064, like all even numbers greater than 2, is a composite number.
As a Roman numeral 1064 is now deemed to be MLXIV but the ancient Romans would have notated it as MLXIIII
42.56
1064 degree Celsius = 1947.2 degree Fahrenheit
To convert degrees Celsius to degress Fahrenheit, multiply the number by 9, divide by 5, and add 32. In this instance, 1064 x 9 = 9576 / 5 = 1915.2 + 32 = 1947.2. Therefore, 1064 degrees Celsius is equal to 1947.2 degrees Fahrenheit.
Extremely hot for humans: 1064 degrees Celsius = 1,947.2 degrees Fahrenheit.
Gold's Melting and Boiling Point ---- Melting Point 1064 degrees celsius ---- Boiling Point 2802 degrees celsius ----
No, Gold is a solid at 21 degrees Celsius, or 70 degrees Fahrenheit. Gold becomes a liquid at 1337.33 degrees K, or 1064.18 degrees Celsius or 1947.52 degrees Fahrenheit.
Yes, the melting/freezing point of gold is 1064.18 °C
To cover degrees into kelvin follow the equation:Tk=Tc+273.15;so hereTk=1064+273.15Tk=1337.15 kThe gold will melt 1337.15 kelvin temperature .Thank youSilamB King
The formula to calculate the temperature from Celsius to Kelvin is: K = C + 273.15 therefore: K = 1064 + 273.15 = 1337.15 However, gold has melting point (1337.33 K , 1947.52 F , 1062.18 C
No, thousands of degrees of heat are required to melt gold. A regular stovetop cannot melt gold. Gold melts at about 1064 degrees Celsius (1948 Fahrenheit). While a regular stovetop won't get that hot, there are tabletop smelters that will go above two thousand degrees Fahrenheit. Part of the issue is that gold can be softened at temperatures quite a bit lower than it's melting point, similar to butter, but not really. So mostly it depends what you're trying to do.
The Kelvin scale uses the same "degree" size as the Celsius scale, but begins 273.15° lower, at absolute zero. To convert any Celsius temperature to Kelvins, add 273.15. For this example, 1064 °C = 1337.15 K
well, let's just say that "anything is possible." if your fire were hot enough, it would melt gold and the wedding rings would fuse: gold melts at 1948 degrees Fahrenheit, or 1064 degrees celsius. but if you had a fire that hot, then the *box* you mention would have disappeared, since paper (presuming that they are in the box they were in you purchased them) burns at 842 degrees Fahrenheit, or 450 degrees celsius. (and if the jewelry box is wood, the it would ignite somewhere between 530° F & 930° F.) and if you were financially depressed at the time you purchased the rings in the box, and could only afford silver, then they would melt at a slightly lower temp - 1763.2°F (961.78°C ) - but the box would be lost anyway. now if you have platinum rings, the rings would bond at a much higher temp: 3225 degrees Fahrenheit, or 1774 degrees celsius - but the box would still be long gone. you should probably get a fireproof safe to protect that box.
The answer is 1337.15 K (approx.). The Kelvin scale starts at absolute zero and is used in scientific laboratories. Celsius is for general use and set 0 and 100 as melting and boiling point of water respectively. To convert from C to K, add 273.15 to C.1064 deg C = 1337.15 deg K