### Equation (H.7)\[\lambda' - \lambda = \frac{h}{m_e c} (1 - \cos \theta).\]This is known as Equation (H.7).---### Exercise**3. Derive Eq. (H.7).**---**Explanation:**- **Symbols:** - \(\lambda'\) and \(\lambda\) are wavelengths. - \(h\) is Planck's constant. - \(m_e\) is the mass of an electron. - \(c\) is the speed of light. - \(\theta\) is the scattering angle.This equation represents the change in wavelength due to a scattering event, commonly associated with the Compton effect.

The above problem is the derivation of the Compton's equation. It is studied under qunatum mechanics. To solve this problem we have to use law of conservation of momentum and energy. The solution for the given problem is

Answered: h X – \ = :(1 – cos 0). mẹc 3. Derive…

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h X – \ = :(1 – cos 0). mẹc 3. Derive Eq. (H.7).

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Question

### Equation (H.7)

\[
\lambda' - \lambda = \frac{h}{m_e c} (1 - \cos \theta).
\]

This is known as Equation (H.7).

---

### Exercise

**3. Derive Eq. (H.7).**

---

**Explanation:**

- **Symbols:**
- \(\lambda'\) and \(\lambda\) are wavelengths.
- \(h\) is Planck's constant.
- \(m_e\) is the mass of an electron.
- \(c\) is the speed of light.
- \(\theta\) is the scattering angle.

This equation represents the change in wavelength due to a scattering event, commonly associated with the Compton effect.

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