hcl
CCl4 is a non polar molecule because though each of the C-Cl bond is polar but the resultant of all these dipole moments is zero as its a symmetrical tetrahedral shape molecule ,and their is a cancellation of dipole moment in each pair
"I believe it is Ionic." Whoever said this is wrong, it's covalent (they share an electron from each atom to stabillise themselves) with an instantaneous dipole induced dipole intermolecular force.
The reaction CCl4 + 2Cl2 → C + 2CCl2 is a redox reaction, specifically a displacement reaction where CCl4 is being reduced to C and Cl2 is being oxidized to CCl2.
Carbon dioxide (CO2) and methane (CH4) are examples of nonpolar molecules because they have symmetrical distribution of charge and no permanent dipole moment. This means that the electronegativity of the atoms in the molecule is balanced and there is no net charge separation.
O2
BCl3 and NH3 would exhibit dipole-dipole intermolecular forces, as they have polar bonds. CF4, CO2, and Cl2 would not exhibit dipole-dipole forces, as they are nonpolar molecules.
This chemical reaction is:CS2 + 3 Cl2 = CCl4 + S2Cl2
CCl4 is a non polar molecule because though each of the C-Cl bond is polar but the resultant of all these dipole moments is zero as its a symmetrical tetrahedral shape molecule ,and their is a cancellation of dipole moment in each pair
The intermolecular force in CCl4 is dispersion forces. This occurs when slight variations in electron distribution effect the electron distribution of other molecules. Because CCl4 is non polar, it does not have other intermolecular forces holding the molecules together.
The reaction you listed does not balance. However, if you meant CCl4 (carbon tetrachloride) instead of CCl2, the balanced equation would be CCl4 + Cl2 -> CCl3Cl + HCl. The reaction involves chlorine transforming carbon tetrachloride into chloroform and hydrogen chloride.
you are probably looking for CI4 Cl4 doesnt exist... Chlorine only bonds with itself to form Cl2
To balance the chemical equation CH4 + Cl2 → CCl4 + HCl, you need to ensure that the number of each type of atom is the same on both sides of the equation. Start by counting the number of each type of atom on each side: 1 carbon, 4 hydrogen, and 2 chlorine on the left, and 1 carbon, 1 hydrogen, and 1 chlorine on the right. To balance the equation, you can adjust the coefficients in front of each compound. The balanced equation is CH4 + 4Cl2 → CCl4 + 4HCl.
Absorption of energy from IR radiation can only occur when the wavelength of radiation and the wavelength of the bond vibration match. If a molecule has symmetry...for example no dipole, we say it is IR inactive. CO2 has no dipole....this would be an IR inactive gas...Cl2 as well. A gas that has a dipole would be IR active. Propene would be a nice example of an IR active gas.It possesses a dipole. One would see a signal around 1650.A:CO2 has no permanent dipole. However, when CO2 undergoes a bending vibration, its dipole moment changes from zero to some non-zero value. This vibration produces a change in dipole moment and is therefore IR active.
Absorption of energy from IR radiation can only occur when the wavelength of radiation and the wavelength of the bond vibration match. If a molecule has symmetry...for example no dipole, we say it is IR inactive. CO2 has no dipole....this would be an IR inactive gas...Cl2 as well. A gas that has a dipole would be IR active. Propene would be a nice example of an IR active gas.It possesses a dipole. One would see a signal around 1650.A:CO2 has no permanent dipole. However, when CO2 undergoes a bending vibration, its dipole moment changes from zero to some non-zero value. This vibration produces a change in dipole moment and is therefore IR active.
"I believe it is Ionic." Whoever said this is wrong, it's covalent (they share an electron from each atom to stabillise themselves) with an instantaneous dipole induced dipole intermolecular force.
Yes, Cl2 represents a molecule of chlorine gas. Each chlorine atom shares a single covalent bond with the other, forming a diatomic molecule.
The reaction CCl4 + 2Cl2 → C + 2CCl2 is a redox reaction, specifically a displacement reaction where CCl4 is being reduced to C and Cl2 is being oxidized to CCl2.