Just use your common sense
Scientists use sonar to map the ocean floor by sending sound waves from a ship to the ocean floor. These sound waves bounce back and are picked up by a receiver on the ship, providing information about the depth and texture of the ocean floor. By analyzing the time it takes for the sound waves to return, scientists can create detailed maps of the underwater terrain.
No, it is the wind that creates waves by transferring its energy to the water's surface. Waves are generated when the wind blows across the surface of the water, causing ripples and eventually forming waves.
Sonar is used to map the ocean floor by sending sound waves from a ship or underwater vehicle. These sound waves bounce off the ocean floor and return to the device, allowing scientists to create detailed maps based on the time it takes for the sound waves to return. This method is effective and accurate because sonar can penetrate deep into the ocean and provide precise measurements of the seafloor's depth and features.
Electromagnetic waves
Harry Hess used echo sounding technology to map the ocean floor. This technology involved sending sound waves from a ship and measuring the time it took for the sound waves to bounce back, allowing scientists to determine the depth of the ocean floor and create detailed maps.
A concept map of waves would include key components such as "Types of Waves" (mechanical and electromagnetic), "Properties" (wavelength, frequency, amplitude, speed), and "Behaviors" (reflection, refraction, diffraction, interference). Additionally, it would connect to real-world applications like "Sound Waves" in communication and "Light Waves" in optics. Interrelationships among these components could illustrate how changes in one property affect others, such as how frequency and wavelength are inversely related.
When seismic waves hit a fault, the waves are reflected off the fault.Seismograph can detect these reflected seismic waves.Geologists then use these data to map the fault's length and depth.
Scientific Method concept mapMatch the numbered steps of the scientific method on the concept map by choosing the correct phrase or terms. (9 points) abcdefghi1abcdefghi2abcdefghi3abcdefghi4abcdefghi5abcdefghi6abcdefghi7abcdefghi8abcdefghi9a.Ask questionsb.Hypothesis is truec.Think! try againd.Report resultse.Test with an experimentf.Hypothesis is falseg.Construct a hypothesish.Do background researchi.Analyze results and draw conclusions
A concept map is a diagram showing the relationships among concepts and processes. (see related link)
A hierarchical concept map presents information in a descending order of importance, with the main concept at the top and more detailed sub-concepts branching out underneath. This allows viewers to quickly grasp the hierarchy and importance of each concept within the map.
Yes.
When seismic waves hit a fault, the waves are reflected off the fault.Seismograph can detect these reflected seismic waves.Geologists then use these data to map the fault's length and depth.
When seismic waves hit a fault, the waves are reflected off the fault.Seismograph can detect these reflected seismic waves.Geologists then use these data to map the fault's length and depth.
When seismic waves hit a fault, the waves are reflected off the fault.Seismograph can detect these reflected seismic waves.Geologists then use these data to map the fault's length and depth.
When seismic waves hit a fault, the waves are reflected off the fault.Seismograph can detect these reflected seismic waves.Geologists then use these data to map the fault's length and depth.
The concept of waves influences ocean currents by transferring energy and momentum. Waves can cause surface currents to form, which can affect the movement of water in the ocean. The interaction between waves and currents can impact the behavior of ocean circulation patterns.
no