76-19 = 57
23% of 7619= 23% * 7619= 0.23 * 7619= 1,752.37
To convert 0.7619 to a fraction, you can express it as 7619/10000 since it has four decimal places. This fraction can be simplified by finding the greatest common divisor (GCD) of 7619 and 10000, but since 7619 is a prime number, the fraction is already in its simplest form. Therefore, 0.7619 as a fraction is 7619/10000.
512-855-7619
32/42= .7619 or 76.19%
CPT Code J 7619 has been deleted. No cross reference given.)
The country code and area code of Kirchham, Austria is 43, (0)7619.
The distance between the two places is 7619 miles. This is an approximate direct (straight line) distance. During actual travel, this distance may change if a different flight route is chosen.
I'm guessing that the answer is hydrogen since its melting point is only a few degrees Kelvin. Second guess is Helium.
You are missing half the question. According to Wikipedia (and other sources), the substance with the highest melting point is: Tantalum hafnium carbide (Ta4HfC5) MP: 4488 K (4215 °C, 7619 °F). It is possible that other higher temperature solids will be found, but one would not expect to find any solids with a melting point a full order of magnitude higher (40,000 °C). On can alter the temperature & pressure and raise the melting point somewhat. But at some point one would loose the essence of a solid and end up with a plasma. The core of the sun is 13,600,000 °K (Wikipedia), and some estimates are as high as 15 or 16 million degrees K. It is believed that matter exists in the form of plasma at that temperature.
A solid that has hydrogen bonding would melt the easiest.
The pure chemical element with the highest melting point is tungsten, at 3695 K (3422 °C, 6192 °F) making it excellent for use as filaments in light bulbs.The compound with the highest melting point of all known compounds is Tantalum hafnium carbide (Ta4HfC5), a refractory metal with a melting point of about 4488 K (4215 °C, 7619 °F).The often-cited carbon does not melt at ambient pressure but sublimes at about 4000 K; a liquid phase only exists at very high pressures, of above 10 MPa and is estimated at 4300-4700 K.
38 * 2 = 76 19 * 4 = 76