First High & Low Tide in Harbor: Water Depth at 12am & 6pm

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The water depth in the harbor is modeled by the equation y = 21 - 5cos(πt/6), where y represents the depth in feet and t is the time in hours since midnight. To find the first high and low tides, the maximum and minimum values of the cosine function must be determined. The maximum value of cos(πt/6) occurs when t = 0, leading to the first high tide at midnight with a depth of 26 feet. The minimum value occurs when cos(πt/6) is -1, which happens at t = 6 hours, resulting in the first low tide at 6 AM with a depth of 16 feet. This analysis highlights the relationship between the cosine function and tidal patterns in the harbor.
TonyC
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Suppose the depth of the tide in a certain harbor can be modeled by y=21-5cos pi t/6, whre y is the water depth in feet and t is the time in hours. Consider a day in which t=0 represents 12:00 midnight. For that day, when are the first high tide and the first low tide and what is the water depth at each time?
 
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You have:
-1 \leq \cos \alpha \leq 1
So what can you say about the y = 21 - 5 \cos \frac{\pi t}{6}
Viet Dao,
 
What are you looking for?
 
Okay, when y is minimum, that means:
5 \cos \frac{\pi t}{6} is maximum.
So \cos \frac{\pi t}{6} is maximum.
So y is minimum means that \cos \frac{\pi t}{6} is maximum.
-1 \leq \cos \frac{\pi t}{6} \leq 1 so what t makes \cos \frac{\pi t}{6} maximum?
Viet Dao,
 
you can take the first derivitive and then find when it is 0 to tell you where your critical points are then use that to find the min and max
 
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