To determine why chlorine's melting point (-100.98) is higher than krypton's melting point (-157.2), you must look at the electron configuration of the elements. 36Kr: [Ar]4s23d104p6, and 17Cl: [Ne]3s23p5. There is a trend in the Periodic Table that states that elements with paired electrons in the electron orbitals will have extremely low melting points (why all noble-gases have low melting points). So since krypton is a noble-gas, it has every electron orbital filled, forming an octet, therefore having a lower melting point. Chlorine, has a 3p5 orbital and therefore not completing the octet, or paired p-orbital, therefore having a higher melting point.
Yes, chlorine has a higher boiling point than iodine. Chlorine has a boiling point of -34.6 degrees Celsius, while iodine has a boiling point of 184 degrees Celsius.
The boiling point of Chlorine is 239.11 Kelvin (equivalent to 34.04 degrees Celsius or -29.272 degrees Fahrenheit).The boiling point of water is 373.15 Kelvin (equivalent to 100 degrees Celsius or 212 degrees Fahrenheit).
Chlorine is a gas at room temperature. Boiling point of it is 34.6 degrees Celsius. It stays as diatomic molecules.
No, chlorine has a lower boiling point than bromine. Bromine has a boiling point of 332.0 K (58.8 °C, 137.8 °F) Chlorine has a boiling point of 239.11 K (-34.4 °C, -29.27 °F) I have been assigned a homework assignment to the purpose of explaining why this is, although I have no clue... yet. The reason for this is that the London Dispersion Force in Bromine is higher than that of Chlorine. London Dispersion Force depends on the polarizability which consists of two parts: number of electrons in each of these two diatomic molecules and the diffuse cloud (which mainly is the size of the molecule). Because Bromine has more electrons than Chlorine (35 to 17) and Bromine is larger than Chlorine (Period 4 > Period 3). Because of the above, Bromine has higher intermolecular force, London Dispersion Force specifically than Chlorine. Thus, it requires more energy to break the bonds between Bromine molecules than Chlorine molecules. In term of thermodynamics, Bromine has higher boiling point than Chlorine.
The boiling point of iodine (184.3 0C) is substantially higher than the boiling point of chlorine (-34 0C). Each element occurs at standard temperature and pressure as diatomic molecules; iodine molecules have substantially more mass than chlorine molecules; dispersion forces will be higher beween iodine molecules as they have more electrons than chlorine molecules. Both these factors contribute, mass will alomost certainly be the predominant factor.
Chlorine has a higher boiling point than oxygen. Chlorine's boiling point is -34.6 degrees Celsius, while oxygen's boiling point is -183 degrees Celsius.
Yes, chlorine has a higher boiling point than iodine. Chlorine has a boiling point of -34.6 degrees Celsius, while iodine has a boiling point of 184 degrees Celsius.
The boiling point of chlorine is 239.11 K, or -34.04°C.
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.
Krypton melts at -251.25 °F and boils at -244.12 °F
Chlorine in water can affect the boiling process by increasing the boiling point of water. This means that water with chlorine will need to be heated to a higher temperature before it boils compared to water without chlorine.
The boiling point of Chlorine is 239.11 Kelvin (equivalent to 34.04 degrees Celsius or -29.272 degrees Fahrenheit).The boiling point of water is 373.15 Kelvin (equivalent to 100 degrees Celsius or 212 degrees Fahrenheit).
Boiling Point: -153.4 °C (119.75001 K, -244.12 °F)
The melting point of chlorine is -100.95 degrees Celsius. The boiling point is -34.55 degrees Celsius.
Yes, chlorine has a boiling point of -34.6 degrees Celsius. At this temperature, chlorine changes from a liquid to a gas.
The boiling point of a substance is determined by the strength of its intermolecular forces. Radon, being a larger atom with more electrons, has stronger London dispersion forces compared to xenon and krypton. This stronger intermolecular force requires more energy to overcome, resulting in a higher boiling point for radon.
The melting point of chlorine is -101,5 0C. The boiling point of chlorine is - 34,04 0C.