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Current Question (ID: 17913)

Question:
$\text{AB crystallizes in a body-centred cubic lattice with edge length a equal to 387 pm.}$ $\text{The distance between two oppositely charged ions in the lattice will be:}$
Options:
  • 1. $250 \text{ pm}$
  • 2. $200 \text{ pm}$
  • 3. $300 \text{ pm}$
  • 4. $335 \text{ pm}$
Solution:
$\text{HINT: The distance between two oppositely charged ions in the lattice is: } r^+ + r^- $ $\text{For BCC,}$ $2r^+ + 2r^- = a\sqrt{3}$ $r^+ + r^- = \frac{a\sqrt{3}}{2} = \frac{387}{2} \times 1.7322 = 335 \text{ pm}$

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Upload a JSON file containing LaTeX/MathJax formatted question, options, and solution.

Expected JSON Format:

{
  "question": "The mass of carbon present in 0.5 mole of $\\mathrm{K}_4[\\mathrm{Fe(CN)}_6]$ is:",
  "options": [
    {
      "id": 1,
      "text": "1.8 g"
    },
    {
      "id": 2,
      "text": "18 g"
    },
    {
      "id": 3,
      "text": "3.6 g"
    },
    {
      "id": 4,
      "text": "36 g"
    }
  ],
  "solution": "\\begin{align}\n&\\text{Hint: Mole concept}\\\\\n&1 \\text{ mole of } \\mathrm{K}_4[\\mathrm{Fe(CN)}_6] = 6 \\text{ moles of carbon atom}\\\\\n&0.5 \\text{ mole of } \\mathrm{K}_4[\\mathrm{Fe(CN)}_6] = 6 \\times 0.5 \\text{ mol} = 3 \\text{ mol}\\\\\n&1 \\text{ mol of carbon} = 12 \\text{ g}\\\\\n&3 \\text{ mol carbon} = 12 \\times 3 = 36 \\text{ g}\\\\\n&\\text{Hence, 36 g mass of carbon present in 0.5 mole of } \\mathrm{K}_4[\\mathrm{Fe(CN)}_6].\n\\end{align}",
  "correct_answer": 4
}