The shape of CS2 is considered linear. This is because both sulfur molecules are attached to the one carbon molecule using double bonds in a straight line.
Carbon disulfide has a linear molecule.
No, carbon disulfide (CS2) is not miscible in water. This is because CS2 is a nonpolar compound while water is a polar molecule. Nonpolar and polar molecules do not mix easily due to their differing intermolecular forces.
The molecule N2C2H4F2O2 has a higher boiling point.
C.A molecule that has a symmetrical shape will be a nonpolar molecule.
The shape of a DNA Molecule is a Double Helix
Carbon disulfide has a linear molecule.
Yes, a CS2 molecules contains two double covalent bonds.
CS2 is a polar covalent molecule that does not ionize in water, so it is not an acid or a base.
The bond angle of carbon disulfide (CS2) molecule is 180 degrees, which forms a linear molecular geometry.
The bond angle of carbon disulfide (CS2) is 180 degrees. The molecule has a linear shape due to the arrangement of the two sulfur atoms on opposite sides of the central carbon atom.
C=4e- (on periodic table you find C in the Group 4 / 4valence electrons) S=6e- (Group 6/ 6 valence electrons) multiply by 2 12e- 4e- + 12e- ____ 16 valence electrons in CS2
H2O, with a bond angle of 104.5 degrees due to its three areas of electron density.
CS2 is a nonpolar molecule because the dipole moments of the two C-S bonds in opposite directions cancel each other out. Therefore, CS2 does not have an overall dipole moment.
4.2 moles of CS2 contain 8,4 moles sulfur.
No, carbon disulfide (CS2) is not miscible in water. This is because CS2 is a nonpolar compound while water is a polar molecule. Nonpolar and polar molecules do not mix easily due to their differing intermolecular forces.
Yes, it is bent with two single bonds and two lone pairs
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.