Titanium (Ti)
Melting points: 1941 K, 1668 °C, 3034 °F
Boiling points: 3560 K, 3287 °C, 5949 °F
1843 C and 2972 C resp.
(1749 degrees Celsius, 3180 degrees Fahrenheit)
melting point
No basic Difference between melting point and Drop point.
assuming it is its own melting point NOTHING which is why its a MELTING point
The melting point of bromine is -7,2 0C. The melting point of chlorine is -101,5 0C.
TiO2. If you don't know that TiO2 is a solid and CO2 is a gas the "reasoning"is TiO2 is a metal oxide, these are solids. CO2 is a non-metal oxide and carbon is not a metalloid, and the majority of these are gases (SeO2 is the exception. Additionally, you can look at their electronegativity differences and see that titanium(IV) oxide is more ionic and carbon dioxide is more covalent. Generally speaking, ionic solids have high melting points and covalent substances (mostly gases and liquids anyway under normal conditions) have low melting points.
(1749 degrees Celsius, 3180 degrees Fahrenheit)
According to wikipedia it is 187oC.
99 degrees
The boilling point of einsteinium has not been determined.
Melting is not difficult but boilling is hard coz of the formation of H-bond .
The boiling point of sodium chloride is 1 413 0C.
This is the melting point.
The boilling point of Einsteinium has not been determined, however it melts at 1133 K (860 °C, 1580 °F. This lack of information is probably due to the fact that it takes about 4 years to make 3 mg of the substance at the Oak Ridge facility.
melting point
melting point
No basic Difference between melting point and Drop point.