Tsunamis vs. Ocean Waves: What’s the Difference? Tsunamis are like the big, unexpected waves you might see in movies, but they’re not your average beach day waves. They’re usually caused by big geological events, like when the earth shakes really hard (think earthquakes) or when something massive liRead more
Tsunamis vs. Ocean Waves: What’s the Difference?
Tsunamis are like the big, unexpected waves you might see in movies, but they’re not your average beach day waves. They’re usually caused by big geological events, like when the earth shakes really hard (think earthquakes) or when something massive like a volcanic eruption or a landslide happens underwater. Imagine dropping a huge boulder into a pond—only way bigger. This sudden shift displaces a lot of water and creates waves that can travel across the entire ocean.
In deep water, tsunamis are almost invisible—barely a bump on the surface. But as they reach shallow water near the shore, they can grow into giant, towering waves that crash with incredible force. It’s like a ripple turning into a tidal wave. Plus, tsunamis often come in a series of waves, and the first one might not even be the biggest. It’s like a sneak peek before the main show.
Typical ocean waves, on the other hand, are what you see at the beach. They’re created by the wind blowing over the surface of the water. These waves have shorter wavelengths (the distance between each wave) and are much more visible and regular. They’re like the everyday waves you might ride while surfing or paddleboarding. They’re much smaller in comparison to tsunamis and don’t travel as far.
In short, tsunamis are the giant, powerful waves with a hidden threat that can be caused by major underwater events, while ocean waves are the more familiar, wind-driven waves that you see every day at the beach.
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Components & Working: A Tsunami Warning Centre operating on 24x7 basis. A network of land-based seismic stations for earthquake detection. A network of 12 Bottom Pressure Recorders (that could detect and measure a change in water level of 1 cm at water depths of up to 6 km of water). A network oRead more
Components & Working:
A Tsunami Warning Centre operating on 24×7 basis.
A network of land-based seismic stations for earthquake detection.
A network of 12 Bottom Pressure Recorders (that could detect and measure a change in water level of 1 cm at water depths of up to 6 km of water).
A network of tsunami buoy system it measures the change in height of the water column then this water column height is communicated and then relayed via satellite to the tsunami warning center.
Real-time observational network for upper ocean parameters and surface met-ocean parameters.
A network of 50 real time tide gauges, radar- based coastal monitoring stations and current meter moorings to monitor progress of tsunami and storm surges .
See lessThe EWS receives real-time Seismic data from the National Seismic Network the system detects all earthquake events of more than 6 Magnitude occurring in the Ocean . BPRs installed in the Deep Ocean and Buoys are the key sensors to confirm the triggering of Tsunami through INSAT end-to-end communication takes place and disseminate alerts to MHA by satellite- based virtual private network (VPN DMS). This network enables early warning center to disseminate warnings to the MHA, as well as to the State Emergency Operations Centers.