101-102 C
Bromine (Br): Melting point: - 7,2 0C Boiling point: + 58,8 0C
Phenylmagnesium bromide does not have a melting point. It is soluble in diethyl ether and THF and has a flash point of -45 degrees C.
Although theoretically the menting point of entidium bromide is high, it is generally added to media/gel after boiling and media or gel and the media or gel is still in the molten liquid state
The melting point of sodium bromide (a salt) is 755 . Calculate this temperature in and in kelvins.
the boiling point of platnium is 2500c
1000000
1396 °C
1390 degrees C
Hydrogen fluoride has higher boiling point than hydrogen bromide ( HF 19.5 C HBr -66 C) because in hydrogen fluoride has two kinds of forces, one is hydrogen bonding and other is London dispersion forces. In Hydrogen bromide there are only london dispersion forces. These are weaker than hydrogen bonds therefore HF has the higher boiling pint.
Bromine (Br): Melting point: - 7,2 0C Boiling point: + 58,8 0C
The compound is methyl bromide - formerly a very common fumigant for stored goods subject to insect attack. A boiling point is exactly that - a point, a particular temperature at which boiling of a substance takes place. As such it has no limit. As posted the question has no obvious meaning.
Boiling is the phase where the boiling occurs. The point at which the boiling occurs is the boiling point.
options (A) Boiling point (b) Colour (C) Smell (D) Solubility in water.
Phenylmagnesium bromide does not have a melting point. It is soluble in diethyl ether and THF and has a flash point of -45 degrees C.
Melting point of FeBr2: 684 0C Melting point of FeBr3: decomposition to previous bromide after 200 0C
The boiling point of freshwater is lower than the boiling point of saltwater.
HI has a higher boiling point because of the dipole-dipole Intermolecular forces as well as the dispersion forces, which become more evident with molecular weight, which will dominate over the dipole-dipole forces, so HCl has a lower boiloing point.