5. At a certain ocean bay, the maximum height of the water is 4 m above mean sea level at 8:00 a.m. The height is at a maximum again at 8:24 p.m. Assuming that the relationship between the height, h, in metres, and the time, t, in hours, is sinusoidal, determine the height of the water above mean sea level at 10:00 a.m. a: Equation: Graph: I a: k: Equation: Graph: C: A mass is suspended by a spring such that it hangs at rest 0.5 m above the ground. The mass is raised 40 cm and released at time t=0 s, causing it to oscillate sinusoidally. If the mass returns to the high position every 1.2 s, determine the height of the mass above the ground at t = 0.7 s. k: C: d: d:

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5. At a certain ocean bay, the maximum height of the water is 4 m above mean sea level at 8:00 a.m. The height is at a maximum again at 8:24 p.m. Assuming that the relationship between the height, h, in metres, and the time, 1, in hours, is sinusoidal, determine the height of the water above mean sea level at 10:00 a.m. d: a: Equation: Graph: I a: k: A mass is suspended by a spring such that it hangs at rest 0.5 m above the ground. The mass is raised 40 cm and released at time t=0 s, causing it to oscillate sinusoidally. If the mass returns to the high position every 1.2 s, determine the height of the mass above the ground at t = 0.7 s. k: d: Equation: Graph: C: 1 C: I