109 o
The H-N-H bond angle (assuming that's what the question is trying to ask) is a bit less than the tetrahedral angle, 109.5o.
According to wikipedia, one S-H side of the molecule spans a nominal 133.6 pm and the angle between the two arms of the molecule is 92.1o.
The angle between hydrogen and carbon in methane is approximately 109.5 degrees. This angle is due to the tetrahedral shape of the methane molecule, where the carbon atom is at the center and the four hydrogen atoms are positioned at the corners of the tetrahedron.
The bond angle of carbon disulfide (CS2) molecule is 180 degrees, which forms a linear molecular geometry.
The bond angle of NO2- is approximately 134 degrees. This is because the nitrogen atom is surrounded by two oxygen atoms, causing repulsion that results in the bond angle being less than the ideal 120 degrees of a trigonal planar arrangement.
The approximate Cl-Si-Cl bond angle in SiCl2F2 is expected to be around 109.5 degrees. This is because the molecule adopts a tetrahedral geometry due to the presence of four electron pairs around the silicon atom, resulting in bond angles close to the ideal tetrahedral angle.
The bond angle of a CH3F molecule is approximately 109.5 degrees.
The bond angle of the molecule CH3Cl is approximately 109.5 degrees.
The bond angle of the molecule SCl2 is approximately 103 degrees.
The bond angle of the SO2 molecule is approximately 120 degrees, and its shape is bent or angular.
The bond angle in a molecule containing a CH3Br group is approximately 109.5 degrees.
The ideal bond angle for a carbon-hydrogen bond in a molecule is approximately 109.5 degrees.
The bond angle of formaldehyde (H2CO) is approximately 120 degrees. This angle is due to the molecule's trigonal planar geometry, which results from the repulsion between the electron pairs in the molecule.
The bond angle in a molecule with a bent geometry and two lone pairs is approximately 104.5 degrees.
The ideal ether bond angle in a molecule for optimal stability and reactivity is approximately 110 degrees.
The bond angle between the hydrogen atoms in an ammonia (NH3) molecule is approximately 107 degrees.
The bond angle in SOCl2 is approximately 120 degrees. This is because the molecule has a trigonal planar molecular geometry.