Solve EM Waves Problem: Time Difference of Important News Transmission

In summary, the problem involves calculating the time difference in receiving an important news announcement transmitted by radio waves and sound waves. The speed of sound in air is given as 343 m/s and the distance of the radio wave transmission is 81 km, while the distance for sound wave transmission is 2.3 m. Using the formula time=distance/speed, the time difference can be calculated.
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Homework Statement


An important news announcement is transmitted by radio waves to people who are 81 km away, sitting next to their radios, and by sound waves to people sitting across the newsroom, 2.3 m from the newscaster. Take the speed of sound in air to be 343 m/s. What is the difference in time that the message is recieved?


Homework Equations


c = f*lamda


The Attempt at a Solution


c1 = 3*10^8 m/s
lamda1 = 81km
c2 = 343 m/s
lamda2 = 2.3m

f1 = c1/lamda1
f2 = c2/lamda2

T = 1/(f1-f2) = time difference

What am I doing wrong? Thanks in advance for any help!
 
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  • #2
I think this is more of a distance problem than a waves problem.

So, the speed of radio waves is the speed of light, 3*10^8 m/s...so use time=distance/speed
Do the same thing for sound, where it travels at 343 m/s.
 
  • #3
awesome...thanks!
 

Related to Solve EM Waves Problem: Time Difference of Important News Transmission

1. What are electromagnetic waves?

Electromagnetic waves are a type of energy that can travel through space or matter. They are created by the vibration of electrically charged particles and can range in frequency and wavelength.

2. What is the problem with EM waves?

The main problem with EM waves is that they can cause interference with electronic devices and communication systems. This can lead to disruptions, malfunctions, or even complete failure of these systems.

3. How can EM waves be harmful?

EM waves can be harmful in high doses or in certain frequencies. For example, exposure to high levels of radio waves can cause tissue damage and exposure to UV rays can lead to skin cancer.

4. How do scientists study EM waves?

Scientists use a variety of instruments and techniques to study EM waves. These include telescopes, antennas, and spectrum analyzers. They also use mathematical models and simulations to better understand the behavior of EM waves.

5. What are some practical applications of EM waves?

EM waves have many practical applications, including communication (such as radio, television, and cell phones), medical imaging (such as X-rays and MRI), and cooking (such as microwaves). They are also used in military and scientific research and exploration.

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