Santa clause crawled into my bed and told me because he said so
The bond angle of SO4 (sulfate ion) is approximately 109.5 degrees. This is because sulfate has a tetrahedral molecular geometry, similar to methane (CH4), with four electron pairs surrounding the sulfur atom. Each of the four oxygen atoms forms a single bond with the sulfur atom, resulting in a symmetrical tetrahedral shape and bond angle.
C-H bond of it is polar.CH4 has four such bonds
No, the CH4 molecule does not have a polar covalent bond because the carbon-hydrogen bonds are nonpolar. Since the four hydrogen atoms are symmetrically arranged around the central carbon atom, the molecule has a symmetrical shape and the individual bond dipoles cancel each other out.
There five atoms in CH4.One carbon and four Hydrogen.
The bond length of CH4 (methane) refers to the distance between the carbon atom and each of the four hydrogen atoms it is bonded to. The C-H bond length in methane is approximately 1.09 angstroms (Å) or 109 picometers (pm). This bond length is a result of the tetrahedral molecular geometry and the nature of the carbon-hydrogen bond.
The CH4 Bond Angle Will Be 109.5 Degrees Because It Has a Tetrahedral Molecular Geometry.
in water there are two bond pairs and two lone pairs where as in CH4 there are are four bond pairs nad no lone pair. in ch4 there is only bond pair to bond pair repulsion but in water there are three types of repulsions, lone to lone (greatest repulsion), lone to bond ( lesser repulsion ) and bond to bond ( the least repulsion) , therefore due to the presence of two lone pairs in water the bond pairs are repelled with greater force and they get compressed, reducing the ideal bond angle from 109.5 to 104.5 on the other hand, ch4 has only bond pairs and they dont repel each other that strongly so its angle is greater n its 109.5..
The bond angle in CH4 (methane) is approximately 109.5 degrees. This is because methane has a tetrahedral molecular geometry, with four equivalent C-H bonds arranged symmetrically around the carbon atom.
The bond angle in CH4 (methane) is approximately 109.5 degrees. This is because methane has a tetrahedral molecular geometry with the four hydrogen atoms positioned as far apart from each other as possible.
In a methane (CH4) molecule, the angle between each of the covalent bonds (C-H bonds) is approximately 109.5 degrees. This angle is due to the tetrahedral molecular geometry of methane, where the carbon atom is at the center of a tetrahedron with each hydrogen atom at a corner.
The bond line formula for methane is CH4.
The idealized bond angle for CH4 (methane) is 109.5 degrees. This is because methane has a tetrahedral molecular geometry with four identical carbon-hydrogen bonds arranged symmetrically around the carbon atom at equal angles.
The bond angle of SO4 (sulfate ion) is approximately 109.5 degrees. This is because sulfate has a tetrahedral molecular geometry, similar to methane (CH4), with four electron pairs surrounding the sulfur atom. Each of the four oxygen atoms forms a single bond with the sulfur atom, resulting in a symmetrical tetrahedral shape and bond angle.
The bond angle of CH4 is approximately 109.5 degrees. This is because the four hydrogen atoms in methane repel each other equally due to their electron clouds, resulting in a tetrahedral geometry where the bond angles are as close to 109.5 degrees as possible.
Methane CH4
yes it does
CH4 ia not polar.So the intra molecular force is london force