Pollution. In a large city, the amount of sulfur dioxide pollutant released into the atmosphere due to the burning of coal and oil for heating purposes varies seasonally. Suppose that the number of tons of pollutant released into the atmosphere during the n th week after January 1 is given approximately by P ( n ) = 1 + cos π n 26 0 ≤ n ≤ 104 The graph of the pollution function is shown in the figure. (A) Find the exact values of P (0), P (39), P (52), and P (65) without using a calculator. (B) Use a calculator to find P (10) and P (95). Interpret the results. (C) Use a graphing calculator to confirm the graph shown here for y = P ( n ).
Pollution. In a large city, the amount of sulfur dioxide pollutant released into the atmosphere due to the burning of coal and oil for heating purposes varies seasonally. Suppose that the number of tons of pollutant released into the atmosphere during the n th week after January 1 is given approximately by P ( n ) = 1 + cos π n 26 0 ≤ n ≤ 104 The graph of the pollution function is shown in the figure. (A) Find the exact values of P (0), P (39), P (52), and P (65) without using a calculator. (B) Use a calculator to find P (10) and P (95). Interpret the results. (C) Use a graphing calculator to confirm the graph shown here for y = P ( n ).
Solution Summary: The author calculates the exact values of P(0),P (39 )andp n65 (in tons) without the help of a calculator.
Pollution. In a large city, the amount of sulfur dioxide pollutant released into the atmosphere due to the burning of coal and oil for heating purposes varies seasonally. Suppose that the number of tons of pollutant released into the atmosphere during the nth week after January 1 is given approximately by
P
(
n
)
=
1
+
cos
π
n
26
0
≤
n
≤
104
The graph of the pollution function is shown in the figure.
(A) Find the exact values of P(0), P(39), P(52), and P(65) without using a calculator.
(B) Use a calculator to find P(10) and P(95). Interpret the results.
(C) Use a graphing calculator to confirm the graph shown here for y = P(n).
=
Q6 What will be the allowable bearing capacity of sand having p = 37° and ydry
19 kN/m³ for (i) 1.5 m strip foundation (ii) 1.5 m x 1.5 m square footing and
(iii)1.5m x 2m rectangular footing. The footings are placed at a depth of 1.5 m
below ground level. Assume F, = 2.5. Use Terzaghi's equations.
0
Ne
Na
Ny
35 57.8 41.4 42.4
40 95.7 81.3 100.4
Q1 The SPT records versus depth are given in table below. Find qan for the raft 12%
foundation with BxB-10x10m and depth of raft D-2m, the allowable
settlement is 50mm.
Elevation, m 0.5 2
2 6.5 9.5 13 18 25
No.of blows, N 11 15 29 32 30 44
0
estigate shear
12%
2
Chapter 8 Solutions
Calculus for Business, Economics, Life Sciences, and Social Sciences (13th Edition)
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