Radio waves can travel indefinitely through space until they dissipate or are absorbed by particles in space. The farthest man-made radio signal, the Voyager 1 spacecraft, has been transmitting radio signals back to Earth from over 14 billion miles away.
The speed of an S wave in the Earth's crust is typically around 3.7 km/s. In 22 minutes, an S wave would travel approximately 4884 km.
The speed of S-Waves in the Earth's crust is about 4-8 km/s. In 10 minutes, an S-Wave can travel a distance of approximately 24-48 kilometers.
The distance a wave travels in three periods of the source is equal to the wavelength of the wave. This distance can be calculated as the product of the wave's speed and its period, or it can also be determined by multiplying the wavelength by three.
No a sound wave can't travel through space because in space there is no air and sound waves need a medium to pass though. If you don't know what a medium is, it is something the waves or rays travel through. If you have ever watched a rocket blast off and you couldn't here the rocket make any noise once it left Earth that is why.
A radio signal can travel long distances, potentially thousands of miles. The range of a radio signal is influenced by factors such as frequency, power of the transmitter, antenna height, atmospheric conditions, and obstacles in the signal path.
The question is too vague for an answer. It depends on the intensity of the radio wave source.
If there's nothing to stop it, any electromagnetic wave, such as radio or light, covers 25,902,068,370 kilometers (16,094,764,800 miles) in 24 hours.
One light year, which is 9,500,000,000,000km, or 9.5 trillion kilometers.
Radio wave travel faster than sound wave. Radio wave is the same as light wave except at different wavelength. It travel at speed of light (3 x 108 m/s). Sound wave travel at only 330 m/s and probably can go up to 3,300 m/s in solid medium which is far slower than the speed of light.
Long wave radio, short wave radio, microwave radio, heat, far infrared, near infrared, ultraviolet UV-A, ultraviolet UV-B, high energy X-rays, high energy gamma rays.
The communication was done using radio signals which can be transmitted in a vacuum. Radio waves are part of the electromagnetic spectrum, as are light waves, x-rays and microwaves. Just as light from far distance stars travel through empty space and reach your eyes, so can radio waves travel through space to a radio receiver.
Speed of light 3.0*10^8 m/s times 5 seconds = 15*10^8m
3,000
So far, technology has only allowed us to travel to space in rockets/space shuttles.
2000 km
200 miles
Secondary waves, also known as S-waves, travel at about 3.7 km/s through the Earth's crust and mantle. In 10 minutes, a secondary wave would travel approximately 22,200 kilometers.