The energy in the phenomenon of interference-

To solve the question regarding the energy in the phenomenon of interference, we will analyze the concepts of constructive and destructive interference step by step. ### Step-by-Step Solution: 1. **Understanding Interference**: Interference occurs when two or more waves overlap and combine. This can lead to two types of interference: constructive interference and destructive interference. 2. **Constructive Interference**: In constructive interference, the waves are in phase, and their amplitudes add up. This results in a higher intensity (or energy) in the regions where constructive interference occurs, often referred to as bright fringes. 3. **Destructive Interference**: In destructive interference, the waves are out of phase, and their amplitudes subtract from each other. This leads to a lower intensity (or energy) in the regions of destructive interference, known as dark fringes. 4. **Energy Conservation**: According to the law of conservation of energy, energy cannot be created or destroyed; it can only be transformed or redistributed. In the case of interference, the total energy remains constant, but it is distributed unevenly between the regions of constructive and destructive interference. 5. **Evaluating the Options**: - **Option 1: Conserved** - This is correct because energy is conserved in the interference process. - **Option 2: Get distributed** - This is partially correct but does not fully capture the essence of conservation. - **Option 3: Equal at every point** - This is incorrect as energy varies between bright and dark fringes. - **Option 4: Destroyed in region of dark fringes** - This is incorrect as energy is not destroyed; it is simply lower in those regions. - **Option 5: Created at the place of bright** - This is also incorrect as energy is not created; it is redistributed. 6. **Conclusion**: The only option that accurately describes the energy in the phenomenon of interference is that it is conserved. Therefore, the correct answer is that the energy is conserved. ### Final Answer: The energy in the phenomenon of interference is conserved. ---