How to Calculate the Distance of an Exploding Ship Underwater

What is the scenario presented in the data?

A navy diver hears the underwater sound wave from an exploding ship across the harbor. How far away is the ship?

Answer

The distance between the navy diver and the ship is 1.8 km.

When a navy diver hears the underwater sound wave from an exploding ship, it is essential to calculate the distance between the diver and the ship. In this scenario, the speed of sound in water is 1440 m/s, and the time taken for the sound wave to reach the diver through the air is 4.00 s.

To calculate the distance, we can use the formula:

s = vt

Where: s = distance, v = speed, t = time

For water, the formula becomes:

s = v_wt (eq 1)

Where: v_w = speed of sound in water

For air, the formula is:

s = v_a(t + 4s) (eq 2)

Where: v_a = speed of sound in air

By comparing equation 1 and equation 2, we can solve for the time taken by the sound wave, which is 1.25 s. Plugging this value back into equation 1, we find that the distance between the ship and the navy diver is 1.8 km.

← Determining the muzzle speed of a tennis ball launched from a homemade cannon Understanding fuses in electric circuits →