the shape of the hydrogen cyanide is linear where three atoms are covalently bonded together with 180 degree angle of bond between them and these elements are carbon(the central atom), hydrogen, and nitrogen
I am not 100% sure about this, but I have found many reports that the CO2 compound has a bond angle of 180 degrees,and many chemistry sites support 180 degrees.
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.
Carbonate ion is in a trigonal planar shape (hint: sp2 hybridization)
The angle between the geographic north and the geomagnetic north is 11.5 degrees..
Methane has a chemical formula of CH4, 4 hydrogen atoms bonded to one carbon atom. They form a shape known as tetrahedral, one hydrogen is situated above the carbon, the other three are below the carbon, with an angle of 120o between each atom.
The molecular shape of methane (CH4) is tetrahedral (Four hydrogen atoms surround a carbon atom in three-dimensional space) with sp3 orbital hybridization.
the shape of the hydrogen cyanide is linear where three atoms are covalently bonded together with 180 degree angle of bond between them and these elements are carbon(the central atom), hydrogen, and nitrogen
Carbon has 4 bonds, bonded electrons repel one and other, so the tetrahedral shape is formed because the covalent bond between the carbon and the hydrogen causes a repulsion to the other bonds which themselves repulse. Therefore the bonds will repulse one and other until they are the maximum possible distance from each other. so the bond angle is the maximum it can be, in this case 109.5 degrees.
According to VSEPR theory, methane has a tetrahedral structure which is multiplanar, in which carbon atom lies at the centre and the four hydrogen atoms lie at the four corners of a regular tetrahedron. All H-C-H bond angles are of 109.5°
The HNH angle is 107.8 0
Cyclopropane is highly unstable due to its structure which results in an angle of 60 degrees between the carbon -carbon bond in the molecule.The bonds between the carbon atoms are considerably weaker than in a typical carbon-carbon bond Baeyer strain theoryexplains why the angle strain from the 60° angle between the carbon atoms (less than the normal angle of 109.5° for bonds between atoms with sp3 hybridised orbitals) reduces the compound's carbon-carbon bond energy, making it more reactive than other cycloalkanes such as cyclohexane and cyclopentane
106
Any angle; the linear distance between carbon and oxygen is 112 fm.
Bond angle, in water the H-O-H angle is 105o, in carbon dioxide O=C=O angle is 180o.
Hydrogen the molecule doesn't have a bond angle. You have to have an atom with at least two other atoms bonded to it to have a bond angle, and hydrogen has only two atoms total.
I assume you have come across VSEPR theory. The central sulphur atom has 4 pairs of electrons around it (two pairs in the covalent bonds between S and H and two lone pairs that are sometimes drawn as rabbits ears!) If these four pairs repelled each other equally would form a tetrahedral angle of about 1090 ,this is the angle found in methane wheer the four pairs are identical and repel one another equally. In H2S the two lone pairs repel more strongly and this pushes the hydrogen atoms closer together reducing the bond angle to 920