


A nucleus of iron Fe-59 decays into a stable nucleus of cobalt Co-59. It decays by β–?emission followed by the emission of γ-radiation as the Co-59 nucleus de-excites into its ground state.
The total energy released when the Fe-59 nucleus decays is 2.52 × 10–13?J. The Fe-59 nucleus can decay to one of three excited states of the cobalt-59 nucleus as shown below. The energies of the excited states are shown relative to the ground state.

Following the production of excited states of Co-59, γ-radiation of discrete wavelengths is emitted.
(a) Calculate the maximum possible kinetic energy of the β– particle emitted in MeV
(b) State the maximum number of discrete wavelengths that could be emitted
(c) Calculate the longest wavelength of the emitted γ-radiation
Part (a)
Step 1: Identify the beta emission with the largest energy gap

Step 2: Calculate the energy difference
ΔE?= (2.52 – 1.76) × 10–13?= 7.6 × 10–14?J
Step 3: Convert from J to MeV

Part (b)

Part (c)
Step 1: Identify the emission with the longest wavelength / smallest energy gap

Step 2: Calculate the energy difference
ΔE?= (2.29 – 2.06) × 10–13?= 2.3 × 10–14?J
Step 3: Write down de Broglie’s wavelength equation

Where:
Step 4: Calculate the wavelength associated with the energy change

轉(zhuǎn)載自savemyexams
以上就是關(guān)于【IB DP Physics: HL復(fù)習(xí)筆記12.2.4 Nuclear Energy Levels】的解答,如需了解學(xué)校/賽事/課程動(dòng)態(tài),可至翰林教育官網(wǎng)獲取更多信息。
往期文章閱讀推薦:
MIT官方發(fā)布【2026年夏季推薦閱讀書單】!橫跨科學(xué)/人文/經(jīng)濟(jì)...
IBO官宣!M26 IB放榜全球均分30.88!香港誕生66名狀元,內(nèi)地均分35.47全球領(lǐng)跑!

? 2026. All Rights Reserved. 滬ICP備2023009024號(hào)-1