vickypenunuri49
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30 POINTS!! On a given workday, the rate, in tons per hour, at which unprocessed ore arrives at a refinery is modeled
by O(t) = 20 + 10 cos (t^2/25), where t is measured in hours and 0 ≤ t ≤ 10.

30 POINTS On A Given Workday The Rate In Tons Per Hour At Which Unprocessed Ore Arrives At A Refinery Is Modeled By Ot 20 10 Cos T225 Where T Is Measured In Hou class=

Sagot :

jamesmoorer

Answer:;)

Explanation:

temdan2001

By differentiation and substitution, the answers to the four question are

a.) O'(4) = - 0.96 Tons/[tex]hr^{2}[/tex]  

b.) O'(3) = - 0.85 tons/[tex]hr^{2}[/tex]

c.) U'(t) = - 71.98

d.) t = 3.125 hours

Given that on a given workday, the rate, in tons per hour, at which unprocessed ore arrives at a refinery is modeled by  

O(t) = 20 + 10 cos (t^2/25)

where t is measured in hours and 0 ≤ t ≤ 10.

From the question, at t = 0, O(t) = 100 tons

And during the hour of operation, the refinery processes ore at a constant rate of 25 tons per hour.

a.) To find O'(4), we will differentiate the equation O(t) = 20 + 10 cos (t^2/25)

O'(4) = -20t/25Sin( [tex]t^{2}[/tex]/25)

Substitute t for 4

O'(4) = - 40/25Sin(16/25)

O'(4) = - 1.6Sin(0.64)

O'(4) = - 0.96 Tons/ [tex]hr^{2}[/tex]

 

This means the rate at which unprocessed ore is arriving is decreasing by 0.96 per hour per hour at t = 4

b.) To calculate how much total ore has been processed by the refinery after the plant has been open for 3 hours, substitute t for 3 in the differential equation O'(t) = -20t/25Sin( [tex]t^{2}[/tex]/25)

O'(3) = -20x3/25Sin( [tex]3^{2}[/tex]/25)

O'(3) = -60/25Sin(9/25)

O'(3) = -2.4Sin(0.36)

O'(3) = - 0.85 tons/[tex]hr^{2}[/tex]

 

c.) At time t = 4

Let U(t) = amount of unprocessed ore and U'(t) = rate at which it is changing.

Then

U'(t) = O'(4) - 100

U'(t) = 20 + 10Cos( [tex]4^{2}[/tex]/25) - 100

U'(t) = 20 + 10Cos(16/25) - 100

U'(t) = 20 + 10Cos(0.64) - 100

U'(t) = 28.021 - 100

U'(t) = - 71.98

U'(t) is negative. That means the amount of unprocessed ore is decreasing at time t = 4 hours.

d.) Since the refinery processes ore at a constant rate of 25 tons per hour, to determine the time at which the rate is constant, substitute O'(t) for 25 and look for t in equation O'(t) = -20t/25Sin([tex]t^{2}[/tex] /25).

It is also constant at the beginning when the O(t) = 100 tons

25 = -20t/25Sin( [tex]t^{2}[/tex]/25)

5 = -4t/25Sin( [tex]t^{2}[/tex]/25)

125 = -4tSin( [tex]t^{2}[/tex]/25)

Log both sides

log 125 = log -4tSin( [tex]t^{2}[/tex]/25)

log 125 = log(-4t) + log Sin( [tex]t^{2}[/tex]/25)

Graphically, log Sin( [tex]t^{2}[/tex]/25) is between 0 and 1.  

let assume log Sin( [tex]t^{2}[/tex]/25) = 1

log 125 = log(-4t) + 1

log 125 - 1 = log(-4t)

2.0969 - 1 = log(-4t)

1.0969 = log(-4t)

4t = [tex]log^{-1}[/tex] (1.0969)

4t = 12.5

t = 3.125 hours

Therefore, the time at which the rate is constant is 3.125 hours

Learn more about exponential function here: https://brainly.com/question/12940982

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