Sound Wave Travel Time in Diamond

What is the speed of sound in diamond?

The speed of sound in diamond is 12000 m/s.

How long would it take a sound wave to travel 1 Km through solid diamond?

A) 0.083 seconds B) 12000 seconds C) 12 seconds D) 35.3 seconds

Answer:

Considering the equation for velocity, we have:

v=Δs/Δt ⇒ Δt=Δs/v

In our case, we'll have:

Δt=1000/12000=0.083s

Then, our answer is A) 0.083 seconds

Sound waves travel through diamond at a speed of 12000 m/s. This means that it would take 0.083 seconds for a sound wave to travel 1 km through solid diamond. The speed of sound is affected by the medium it travels through, with diamond being one of the fastest materials for sound propagation.

When calculating the time it takes for a sound wave to travel a certain distance, we can use the formula Δt=Δs/v, where Δt is the time, Δs is the distance, and v is the velocity of the sound wave. In this case, plugging in the values of 1000 meters for Δs and 12000 m/s for v gives us a travel time of 0.083 seconds.

Understanding the speed of sound in different materials helps us comprehend how quickly sound waves can travel through solids, liquids, and gases. Diamonds, with their unique properties, allow for fast propagation of sound waves, making them valuable not only for their beauty but also for their acoustic characteristics.