1) For the waveform to the right, determine the following if the speed of the wave is 140m/s. Amplitude = 3 4 Period = t (sec) Frequency = Wavelength %3D Force (N)

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Chapter1: Units, Trigonometry. And Vectors
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**1) For the waveform to the right, determine the following if the speed of the wave is 140 m/s.**

   Amplitude = ________

   Period = ________

   Frequency = ________

   Wavelength = ________

*Graph Explanation:* 

The graph shows a sinusoidal waveform representing force (in Newtons) over time (in seconds). The waveform oscillates between +3 N and -3 N over a period of approximately 1 second, as indicated by the pattern repeating itself about every 1 second on the time axis. 

**2) Determine the length of a simple pendulum if it needs to have a period of 4 s.**

**3) Determine the period of oscillation of the spring/mass system to the right.**

*Diagram Explanation:*

The diagram illustrates a spring/mass system with a spring constant of 280 N/m and a mass of 3.5 kg attached. This is a typical setup for analyzing simple harmonic motion in physics. 

**4) What is the spring constant of a spring if it has a period of oscillation of 1.33 s when a mass of 90 g is attached?**
Transcribed Image Text:**1) For the waveform to the right, determine the following if the speed of the wave is 140 m/s.** Amplitude = ________ Period = ________ Frequency = ________ Wavelength = ________ *Graph Explanation:* The graph shows a sinusoidal waveform representing force (in Newtons) over time (in seconds). The waveform oscillates between +3 N and -3 N over a period of approximately 1 second, as indicated by the pattern repeating itself about every 1 second on the time axis. **2) Determine the length of a simple pendulum if it needs to have a period of 4 s.** **3) Determine the period of oscillation of the spring/mass system to the right.** *Diagram Explanation:* The diagram illustrates a spring/mass system with a spring constant of 280 N/m and a mass of 3.5 kg attached. This is a typical setup for analyzing simple harmonic motion in physics. **4) What is the spring constant of a spring if it has a period of oscillation of 1.33 s when a mass of 90 g is attached?**
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