Ah, the world of X-ray diffraction (XRD), where the secrets of crystal structures are unveiled! Now, let's dive into the angles you're seeking for the structural analysis of ceramic inorganic compounds.
For a typical XRD pattern of ceramic inorganic compounds:
1. **Lower Angle (2θ):** The lower angle corresponds to the diffraction from planes with the longest d-spacing in the crystal lattice. It's typically in the range of 5 to 10 degrees 2θ. This region provides information about the larger, less-densely packed crystal planes.
2. **Higher Angle (2θ):** The higher angle corresponds to diffraction from planes with shorter d-spacing, often in the range of 20 to 90 degrees 2θ or more. This region gives insights into the finer details of the crystal structure and the distances between the atoms in the crystal lattice.
Now, the specific angles can vary depending on the ceramic material in question. Different crystal structures and lattice parameters will result in distinct XRD patterns. To determine the exact angles for a particular ceramic inorganic compound, you'd need to refer to the literature, databases, or perform the XRD experiment for your specific material.
But hey, I have given you Debasish Panda
a starting point for your XRD adventure. Go forth and unravel the mysteries of crystallography! If you
Debasish Panda
need more precision, dive into the specifics of your compound, and you'll unlock the secrets of its structural beauty.
There is no specific angle range where we can study the structure of a compound. It depends on the nature of the chemical composition of the compound you have. Usually, the lowest angle as seen in most of the paper is 10 degrees and the highest degree is 80 degrees.
Or you may refer to other publications with similar chemical compositions. And if your sample is completely new try with all the possible angles and unlock the structural secrets of your compound.