As the drawing shows, one microphone is located at the origin, and a second microphone is located on the +y axis. The microphones are separated by a distance of D = 1.35 m. A source of sound is located on the +x axis, its distances from microphones 1 and 2 being L1 and L2, respectively. The speed of sound is 343 m/s. The sound reaches microphone 1 fırst, and then, 1.30 ms later, it reaches microphone 2. Find the distances (in m) (a) L1 and (b) L2. Microphone 2 Sound Microphone 1 source L1 (a) Number i Units (b) Number i Units

As the drawing shows, one microphone is located at the origin, and a second microphone is located on the +y axis. The microphones are separated by a distance of D = 1.35 m. A source of sound is located on the +x axis, its distances from microphones 1 and 2 being L₁ and L₂, respectively. The speed of sound is 343 m/s. The sound reaches microphone 1 first, and then, 1.30 ms later, it reaches microphone 2. Find the distances (in m) (a) L₁ and (b) L₂.

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As the drawing shows, one microphone is located at the origin, and a second microphone is located on the +y axis. The microphones are separated by a distance of \( D = 1.35 \, \text{m} \). A source of sound is located on the +x axis, its distances from microphones 1 and 2 being \( L_1 \) and \( L_2 \), respectively. The speed of sound is \( 343 \, \text{m/s} \). The sound reaches microphone 1 first, and then, \( 1.30 \, \text{ms} \) later, it reaches microphone 2. Find the distances (in m) (a) \( L_1 \) and (b) \( L_2 \). **Diagram Explanation:** The diagram shows: - **Microphone 1:** Positioned along the +x axis at the origin. - **Microphone 2:** Positioned along the +y axis. - **Sound Source:** Located on the +x axis. - A dashed line (\( L_2 \)) connecting the sound source to Microphone 2. - A solid line (\( L_1 \)) connecting the sound source to Microphone 1. - Distance \( D \) represents the separation between the microphones along the y-axis. **Questions:** (a) Enter the distance \( L_1 \). (b) Enter the distance \( L_2 \).