Two microwave signals of nearly equal wavelengths can generate a beat frequency if both are directed onto the same microwave detector. In an experiment, the beat frequency is 150 MHz. One microwave generator is set to emit microwaves with a wavelength of 1.320 cm. Part A If the second generator emits the longer wavelength, what is that wavelength? Express your answer with the appropriate units. Viow Availablo Hintle)

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### Understanding Beat Frequencies in Microwaves

**Microwave Beat Frequency Phenomenon**

Two microwave signals with nearly equal wavelengths can generate a beat frequency if both signals are directed onto the same microwave detector. This phenomenon occurs due to the interference between the two signals, which leads to the generation of a frequency that is the difference between the two original frequencies.

**Experimental Setup**

In the experiment, a beat frequency of 150 MHz is observed. One of the microwave generators is set to emit microwaves with a wavelength of 1.320 cm.

**Part A: Calculation of Wavelength**

**Query for Learners:**

If the second generator emits the longer wavelength, what is that wavelength?

**Instructions:**

Express your answer with the appropriate units. 

To find the solution, you would typically use the relationship between frequency, wavelength, and the speed of light in addition to the concept of beat frequency.

**Hints Available**

For more detailed guidance, refer to the hints provided in the available resources.
Transcribed Image Text:### Understanding Beat Frequencies in Microwaves **Microwave Beat Frequency Phenomenon** Two microwave signals with nearly equal wavelengths can generate a beat frequency if both signals are directed onto the same microwave detector. This phenomenon occurs due to the interference between the two signals, which leads to the generation of a frequency that is the difference between the two original frequencies. **Experimental Setup** In the experiment, a beat frequency of 150 MHz is observed. One of the microwave generators is set to emit microwaves with a wavelength of 1.320 cm. **Part A: Calculation of Wavelength** **Query for Learners:** If the second generator emits the longer wavelength, what is that wavelength? **Instructions:** Express your answer with the appropriate units. To find the solution, you would typically use the relationship between frequency, wavelength, and the speed of light in addition to the concept of beat frequency. **Hints Available** For more detailed guidance, refer to the hints provided in the available resources.
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