380
wave a
Wave A takes a more direct route to the receiving station as it travels through the Earth's interior, while wave B experiences more reflection and refraction as it travels along the Earth's surface.
Yes, a wave power station uses renewable energy, as it captures the energy from ocean waves and converts it into electricity. Waves are a natural and sustainable energy source that does not deplete with use.
The distance of an epicenter from a seismograph station can determined by the time it takes for the seismic waves to reach each station. You need at least 3 seismic stations to record the event to determine this. The time taken for each seismic station to resisted the event will be different as they are different distances from the epicenter. The distance to the epicenter can then be calculated for each station and a epicenter can be determined by a triangulation from all stations that have registered the event.
Surface waves are formed when waves reach the Earth's surface. These are seismic waves that travel along the Earth's surface and can cause the most damage during an earthquake.
The time it takes for a wave to reach a station depends on the wave's speed and the distance from the wave's source to the station. You can calculate the time by dividing the distance by the wave's speed (time = distance/speed). For example, if a wave travels at 300 meters per second and is 900 meters away from the station, it would take 3 seconds to arrive.
The time it takes for a seismic wave to reach a receiving station depends on the type of wave. For example, primary waves (P-waves) travel at speeds of about 5-8 km/s in the Earth's crust. If we assume an average speed of 6 km/s, it would take approximately 60 seconds for the wave to cover 360 km.
it take 45or350 p-waves to get to the seismic station
S-waves will take 31 seconds P-waves will take 8 minutes
S-waves travel slower than P-waves, typically at about 60-70% of the speed of P-waves. If a P-wave takes 5 minutes to reach the seismic station, the S-wave would take approximately 8 to 10 minutes to cover the same distance, depending on the specific speeds of the waves in that region.
Siadar Wave Power Station was created in 2011.
S-waves travel at an average speed of about 3.5 kilometers per second. To calculate the time it takes for an S-wave to travel 3200 km, you would divide the distance by the speed: 3200 km ÷ 3.5 km/s, which equals approximately 914.3 seconds. Therefore, it would take roughly 15.2 minutes for the S-wave to reach the seismic station.
That would depend on how far away it was in the first place. Just use the formula:distance = time x speedOr, solving for time:time = distance / speed
depends on the size of the wave and what ocean it is in
if you survive in lone wolf long enough you can save reach but as every wave gets harder it is almost inpossible
The first wave to reach a recording station after an earthquake is the Primary wave, or P-wave. P-waves are compressional waves that travel faster than other seismic waves, moving through both solid and liquid layers of the Earth. They are followed by Secondary waves (S-waves) and surface waves, which arrive later and can cause more damage.
radio wave