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Nov 29, 2015 · The answer to this question is YES. Explanation: According to the first law of motion, an object will remain at rest or in motion unless there is an external unbalanced force that acts upon the object. This first law of motion is also called the law of inertia.
a. Do the waves set the paper boat into motion? What is required to set an object into motion? Yes, the waves moved the paper boat. Energy is required to set and object into motion. b. If you exert more energy in creating periodic waves by tapping the surface with greater strength, how does this affect the movement of the paper boat? The wave ...
a. Do the waves set the paper boat into motion? What is required to set an object into motion? b. If you exert more force in creating periodic waves by tapping the surface with greater strength, how does this affect the movement of the paper boat? Sketch the water waves as seen them from above the basin.
2. Wait for the water to become still before you place your paper boat on the surface. Create periodic waves and observe what happens to your paper boat. a. Do the waves set the paper boat into motion? What is required to set an object into motion? b. If you exert more energy in creating periodic waves by tapping
a. Do the waves set the paper boat into motion? What is required to set an object into motion? b. If you exert more force in creating periodic waves by tapping the surface with greater strength, how does this affect the movement of the paper boat? 3. Sketch the water waves as seen them from above the basin. One wavelength should be labeled in ...
to set an object into motion? Yes, the waves moved the paper boat. Energy is required to set and object into motion. b. If you exert more energy in creating periodic waves by tapping the surface with greater strength, how does this affect the movement of the paper boat? The wave carried more energy causing the paper boat to vibrate strongly. 3 ...
The sound wave rattles a sheet of paper in a direction that shows the sound wave is longitudinal. Earthquake waves under Earth’s surface also have both longitudinal and transverse components (called compressional or P-waves and shear or S-waves, respectively).
