CaO>CS2 (CaO:2572℃ CS2:-110.8℃)
CaO (calcium oxide) has a higher melting point than CS2 (carbon disulfide). This is because CaO is an ionic compound with strong electrostatic forces between ions, while CS2 is a covalent compound with weaker intermolecular forces.
CS2 has stronger intermolecular forces, which result in a higher boiling point compared to CO2. CS2 molecules are more polarizable due to the presence of sulfur, leading to stronger London dispersion forces. As a result, CS2 exists as a liquid at room temperature while CO2, being nonpolar, exists as a gas.
Both CO2 and CS2 are held by Van der Waals' forces but CO2 has a smaller number of electrons than CS2.This leads to weaker forces between the molecules .Therefore, CO2 is a gas while CS2 is a liquid.
The balanced equation is 2 CS2 + 3 O2 → 2 CO2 + 2 SO2. This equation balances the number of atoms for each element on both sides of the reaction.
CS2 is a liquid at room temperature due to its molecular structure and intermolecular forces. The linear structure of the CS2 molecule allows for strong van der Waals forces between molecules, keeping them close together and in a liquid state at room temperature. Additionally, the presence of polar covalent bonds in the CS2 molecule contributes to its liquid state.
CaO (calcium oxide) has a higher melting point than CS2 (carbon disulfide). This is because CaO is an ionic compound with strong electrostatic forces between ions, while CS2 is a covalent compound with weaker intermolecular forces.
The molecule N2C2H4F2O2 has a higher boiling point.
CS2 has stronger intermolecular forces, which result in a higher boiling point compared to CO2. CS2 molecules are more polarizable due to the presence of sulfur, leading to stronger London dispersion forces. As a result, CS2 exists as a liquid at room temperature while CO2, being nonpolar, exists as a gas.
The substance with a melting point of -64°C and a boiling point of 61°C is carbon disulfide (CS2). It is a colorless liquid commonly used as a solvent in the laboratory and in industrial applications. Carbon disulfide has a distinctive sweet odor and is highly flammable, requiring careful handling.
Both CO2 and CS2 are held by Van der Waals' forces but CO2 has a smaller number of electrons than CS2.This leads to weaker forces between the molecules .Therefore, CO2 is a gas while CS2 is a liquid.
600 degrees C.
Carbon disulfide (CS2) is composed of one carbon atom and two sulfur atoms. To calculate the percent composition, divide the mass of each element by the molar mass of CS2, then multiply by 100 to get the percentage. The percent composition of CS2 is approximately 45.7% carbon and 54.3% sulfur.
Yes it is, contact customer support for details, current version is CS5 and is much better then CS2.
The balanced equation is 2 CS2 + 3 O2 → 2 CO2 + 2 SO2. This equation balances the number of atoms for each element on both sides of the reaction.
the chemical formula for carbon disulfide is CS2.
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CS2 is a liquid at room temperature due to its molecular structure and intermolecular forces. The linear structure of the CS2 molecule allows for strong van der Waals forces between molecules, keeping them close together and in a liquid state at room temperature. Additionally, the presence of polar covalent bonds in the CS2 molecule contributes to its liquid state.