H2S has two lone pairs.So it is bent.
Bent as h2s has two non-bonding pairs of electrons
Compounds like hydrogen sulfide (H2S), hydrogen selenide (H2Se), and hydrogen telluride (H2Te) are expected to have a similar geometry to water. These compounds exhibit a bent or angular molecular geometry due to the presence of lone pairs of electrons on the central atom, similar to water's bent molecular structure.
H2S (hydrogen sulfide) is a polar molecule due to its bent molecular geometry and the difference in electronegativity between hydrogen and sulfur atoms. This results in a slight separation of charge between the hydrogen and sulfur atoms, making it polar.
The electron domain geometry for H2S is bent or angular, with two electron domains around the sulfur atom. This results in a bond angle of approximately 92 degrees due to the presence of two bonding pairs and two lone pairs of electrons around the sulfur atom.
H2SO4 is considered a type of polar compound. It is polar because its ions can have dipole moments due to uneven charges.
Bent.
The molecular geometry of H2S is bent, with a bond angle of approximately 92 degrees. This is because of the presence of two lone pairs on the sulfur atom, which push the hydrogen atoms closer together and give the molecule a bent shape.
The hydrogen sulfide (H2S) molecule has a bent shape.
There are two lone pairs.They cause the bent.
H2S (bent geometr) apex
Bent as h2s has two non-bonding pairs of electrons
It has a bent structure just like the H2O and H2S.
There are two electron groups around the central sulfur atom in H2S. This gives H2S a bent molecular geometry.
The molecular geometry of dihydrogen monosulfide (H2S) is bent or V-shaped. This is because of the presence of two bonding pairs and two lone pairs around the sulfur atom, causing repulsion and resulting in a bent shape.
Dihydrogen monosulfide (H2S) is a bent molecule. It has tetrahedral electronic geometry and due to the two lone pairs of electrons on the sulfur, it is bent.
A molecule of hydrogen sulfide (H2S) would have a bent shape due to its molecular geometry. It consists of two hydrogen atoms bonded to a sulfur atom with lone pairs of electrons around the sulfur, causing the molecule to bend.
Compounds like hydrogen sulfide (H2S), hydrogen selenide (H2Se), and hydrogen telluride (H2Te) are expected to have a similar geometry to water. These compounds exhibit a bent or angular molecular geometry due to the presence of lone pairs of electrons on the central atom, similar to water's bent molecular structure.