Chlorine is more electromagnetic than bromie, the C-Cl bond is more polar than the C-Br. The permanent dipole is stronger between 1-chloropropane molecules, so more energy is required to break these intermolecular bonds. The boiling point of 1-chloropropane is higher than 1-bromopropane.
Butane would be expected to have the highest boiling point among methane, ethane, propane, and butane. This is because as the number of carbon atoms in the alkane chain increases, so does the strength of the intermolecular forces (London dispersion forces), leading to higher boiling points.
Lead(II) sulfate melts at over a 10000C. I can't find a boiling point and I am not surprised- I would expect decomposition at such temperatures.
I would expect the boiling point of chlorine to be lower than that of iodine. This is because chlorine is a smaller molecule with weaker London dispersion forces, while iodine is a larger molecule with stronger forces due to its larger size.
You can expect to find high levels of sulfur-containing amino acids such as cysteine and methionine in eggs. These amino acids are responsible for the sulfur smell that can be detected while boiling eggs.
Hydrogen bonding is a weak electrostatic attraction between a covalently bonded H on one atom with an electronegative atom in another molecule. In water this is a bond between the H of one H2O molecule and the O of another. The effects are remarkable. Boiling point and melting point are much higher than you'd expect (compare H2S) the density of ice is lower than that of liquid water.
Butane would be expected to have the highest boiling point among methane, ethane, propane, and butane. This is because as the number of carbon atoms in the alkane chain increases, so does the strength of the intermolecular forces (London dispersion forces), leading to higher boiling points.
I would expect the boiling point of chlorine to be lower than that of iodine. This is because chlorine is a smaller molecule with weaker London dispersion forces, while iodine is a larger molecule with stronger forces due to its larger size.
Lead(II) sulfate melts at over a 10000C. I can't find a boiling point and I am not surprised- I would expect decomposition at such temperatures.
You can expect to find high levels of sulfur-containing amino acids such as cysteine and methionine in eggs. These amino acids are responsible for the sulfur smell that can be detected while boiling eggs.
I'd expect this to be negligible. The molecules which do bind to haemoglobin are oxygen, carbon monoxide and nitric oxide.
it's larger
Solvents such as ethanol, methanol, and glycerol can increase the boiling point of water when they are dissolved in it. This is because these solutes disrupt the hydrogen bonding between water molecules, making it harder for them to escape as vapor during boiling.
The solute in a solution modify the boiling point of water.
Physically I would expect to find the same boiling and melting points, and the same density. Chemically, I would expect the same reactivity with other substances.
The answer depends on the volume of the gas in the tank, temperature and the dimensions of the tank. As a rule of thumb, you could expect to develop 6,000,000 btuh at 40*
Metahne does not have a higher boiling point than methane. Fluoromethane, CH3F, has a boiling point of 195K, -78.2C, methane, CH4, has a boiling point of 109K approx -164 C. I make that fluoromethane has a higher temeprature boiling point than methane. This is what you would expect, London dispersion forces will be greater in CH3F as it has more electrons than CH4. CH3F is polar and there will be dipole dipole interactions which will not be present in CH4.
They have a higher boiling point and lower melting point and is flamable.