Deck 16: Methods and Applications of Integration

Use the formula
= -
ln
+ C to find
.

Use the table below to determine
dx.Indicate the formula number employed.
I.
+ C
II.
+ C
III.

+ C
IV.
+ C

Find the present value of a continuous annuity at an annual rate of 6% for two years if the payment at time t is at the annual rate of f(t)= 200 dollars.Express your answer in terms of e.

Use the table below to determine
dx.Indicate the formula number employed.
I.
+ C
II.
+ C
III.

+ C
IV.
+ C

Use the formula
ln
+ C to find
.

Use the table below to determine
Indicate the formula number employed.
I.
+ C
II.
+ C
III.

+ C
IV.
+ C

Use the table below to determine
dx.Indicate the formula number employed.
I.
+ C
II.
+ C
III.

+ C
IV.
+ C

Use the formula
= -
ln
+ C to find

Use the table below to determine
dx.Indicate the formula number employed.
I.
+ C
II.
+ C
III.

+ C
IV.
+ C

Use the table below to determine
dx.Indicate the formula number employed.
I.
+ C
II.
+ C
III.

+ C
IV.
+ C

Find the present value of a continuous annuity at an annual rate of 9% for five years if the payment at time t is at the annual rate of f(t)= 3000 dollars.Express your answer in terms of e.

Use the table below to determine
dx.Indicate the formula number employed.
I.
+ C
II.
+ C
III.

+ C
IV.
+ C

Use the table below to determine
dx.Indicate the formula number employed.
I.
+ C
II.
+ C
III.

+ C
IV.
+ C

Use the formula
=
+ C to find
.

Use the formula
= ln
+ C to find

Use the table below to determine
dx.Indicate the formula number employed.
I.
+ C
II.
+ C
III.

+ C
IV.
+ C

Use the tables to find:
dx

Use the tables to find:
dx

Use the trapezoidal rule with n = 3 to estimate the value of

Use Simpson's rule with n = 4 to estimate the value of

Use Simpson's rule with n = 4 to find an approximate value of

Use the tables to find:

Use the tables to find:

Use Simpson's rule with n = 4 to find an approximate value of

Use the tables to find:
dx

Use the tables to find:

Use the tables to find:

Use the trapezoidal rule with n = 4 to estimate the value of

Suppose that the points (3,2),(3.25,2.5),(3.5,2.25),(3.75,2)and (4,1.5)lie on the graph of the continuous function f,where f(x)≥ 0.Use Simpson's rule and all of the given points to approximate the area between the graph of f and the x-axis on the interval
.

Use the tables to find:

Suppose that the points (1,1),(2,4),and (3,2)lie on the graph of the continuous function f,where f(x)≥ 0.Use the trapezoidal rule and all of the given points to approximate the area between the graph of f and the x-axis on the interval
.

Use the tables to find:

Use Simpson's rule with n = 4 to estimate the value of

Use the tables to find:

An oil tanker is losing oil at a rate of R'(t)=
where t is the time in minutes and R(t)is the radius of the oil slick in feet.Use n = 6 and Simpson's rule to approximate
the size of the radius after 5 seconds.

Find the exact area of the region bounded by y = f(x)=
+ x,x = 0,x = 2,and the x-axis.

Use definite integrals to find the area between y = -
,the x-axis,x = -1,and x = 1.

Find the area of the region bounded by the curve y = f(x)=
- 4x + 3 and the x-axis on the interval
.Use your graphing calculator to see a graph of this area.

It is estimated that service industries will grow at the rate of R'(t)= 5
where t is the time in decades and R(t)is the percent of (non-farming)workers who are employed in the service industry.If 30 percent of the (non-farming)workers are now in the service industry,then use the trapezoidal rule and
to approximate 30 +
the percentage of workers who will be working in the service industry in 2 decades.

Find the area of the region bounded by the curve y = f(x)=
- x and the x-axis on the interval
.Use your graphing calculator to see a graph of this area.

Find the area between the graph of y = f(x)=
,and the x-axis on the interval
.Use your graphing calculator to see a graph of this area.

Find the exact area of the region bounded by y =
- 4x and the x-axis.Also sketch the region.

Find the area between the graph of y = f(x)=
+
+ 3 and the x-axis on the interval
.Use your graphing calculator to see a graph of this area.

Find the area between the graph of y = f(x)=
,and the x-axis on the interval
.Use your graphing calculator to see a graph of this area.

Use the trapezoidal rule with n = 3 to find an approximate value of

It is estimated that service industries will grow at the rate of R'(t)= 5
where t is the time in decades and R(t)is the percent of (non-farming)workers who are employed in the service industry.If 30 percent of the (non-farming)workers are now in the service industry,then use Simpson's rule and n = 4 to approximate
30 +
the percentage of workers who are working in the service industry in 2 decades.

A yeast culture is growing at a rate of A'(t)= 0.3
where t is the time in hours and A(t)is the amount in grams.Use n = 8 and the trapezoidal rule to approximate
the amount the culture grew over the first four hours.

The velocity of an object is given by V(t)=
,where t is the time in seconds and V(t)is the speed in feet/sec.Use n = 6 and Simpson's rule to approximate
the distance moved over the interval
.

The velocity of an object is given by V(t)=
,where t is the time in seconds and V(t)is the speed in feet/sec.Use n = 6 and the trapezoidal rule to approximate
the distance moved over the interval
.

Find the exact area of the region bounded by y =
+ 1,x = 1,x = 3,and the x-axis.Also sketch the region.

Express the area of the shaded region in terms of an integral (or integrals).Do not evaluate the expression:

Find the area of the region bounded by the given equations:
y =
+ 6x + 10 and y = x + 6

Find the area of the region bounded by the curves y =
and y = x + 2 from x = 1 to x = 2.

The demand equation for a certain product is p = 30 - 0.1q,where p is the price per unit (in dollars)for q units.If its supply equation is p = 0.15q + 5,find the consumers' surplus and the producers' surplus when market equilibrium has been established.

The demand equation for a certain product is p = 200 -
,where p is the price per unit (in dollars)for q units.If its supply equation is p = 6q + 160,find the consumers' surplus and the producers' surplus when market equilibrium has been established.

Find the area of the region bounded by the curves y =
- 4 and y = 2x +
from x = 1 to x = 2.

Find the exact area of the region bounded by the graphs of y = 9 -
and y = 5 - 3x.Also sketch the region.

Find the exact area of the region bounded by the graphs of y = -x,y = 2x,y = 1,and y = 2.Also sketch the region.

Find the area of the region enclosed by the graphs of y =
-
and y = 2x.

Find the exact area of the region bounded by the graphs of x =
and x - y - 2 = 0.Also sketch the region.

Express the area of the shaded region in terms of an integral (or integrals).Do not evaluate the expression:

Find the exact area of the region bounded by y = f(x)= 8 - 2x -
and the x-axis.

Find the exact area of the region bounded by the graphs of y = 8 - 2x -
and y = 3x + 2.Also sketch the region.

Find the area of the region bounded by the given equations:
y =
- x - 9 and y = -
+ 3x + 7

Express the area of the shaded region in terms of an integral (or integrals).Do not evaluate the expression:

Find the exact area of the region bounded by y = f(x)=
,x = -2,x = 2,and the x-axis.