A telephone company offers the following plans. Also given are the piecewise functions that model these plans. Use this information to solve Exercise 95– Plan A $30 per month buys 120 minutes. Additional time costs $0.30 per minute. C ( t ) = { 30 if 30 + 0.30 ( t − 120 ) if 0 ≤ t ≤ 120 t >120 Plan B $40 per months buys 200 minutes. Additional time costs $0.30 per minute. C ( t ) = { 40 if 40 + 0.30 ( t − 120 ) if 0 ≤ t ≤ 200 t > 200 Simplify the algebraic expression in the second line of the piecewise function for plan B. Then use point-plotting to graph the function.
A telephone company offers the following plans. Also given are the piecewise functions that model these plans. Use this information to solve Exercise 95– Plan A $30 per month buys 120 minutes. Additional time costs $0.30 per minute. C ( t ) = { 30 if 30 + 0.30 ( t − 120 ) if 0 ≤ t ≤ 120 t >120 Plan B $40 per months buys 200 minutes. Additional time costs $0.30 per minute. C ( t ) = { 40 if 40 + 0.30 ( t − 120 ) if 0 ≤ t ≤ 200 t > 200 Simplify the algebraic expression in the second line of the piecewise function for plan B. Then use point-plotting to graph the function.
Solution Summary: The author explains the simplified algebraic expression in the second line of given function for plan A.
A telephone company offers the following plans. Also given are the piecewise functions that model these plans. Use this information to solve Exercise 95–
Plan A
$30 per month buys 120 minutes.
Additional time costs $0.30 per minute.
C
(
t
)
=
{
30
if
30
+
0.30
(
t
−
120
)
if
0
≤
t
≤
120
t
>120
Plan B
$40 per months buys 200 minutes.
Additional time costs $0.30 per minute.
C
(
t
)
=
{
40
if
40
+
0.30
(
t
−
120
)
if
0
≤
t
≤
200
t
> 200
Simplify the algebraic expression in the second line of the piecewise function for plan B. Then use point-plotting to graph the function.
Definition Definition Group of one or more functions defined at different and non-overlapping domains. The rule of a piecewise function is different for different pieces or portions of the domain.
Assume {u1, U2, u3, u4} does not span R³.
Select the best statement.
A. {u1, U2, u3} spans R³ if u̸4 is a linear combination of other vectors in the set.
B. We do not have sufficient information to determine whether {u₁, u2, u3} spans R³.
C. {U1, U2, u3} spans R³ if u̸4 is a scalar multiple of another vector in the set.
D. {u1, U2, u3} cannot span R³.
E. {U1, U2, u3} spans R³ if u̸4 is the zero vector.
F. none of the above
Select the best statement.
A. If a set of vectors includes the zero vector 0, then the set of vectors can span R^ as long as the other vectors
are distinct.
n
B. If a set of vectors includes the zero vector 0, then the set of vectors spans R precisely when the set with 0
excluded spans Rª.
○ C. If a set of vectors includes the zero vector 0, then the set of vectors can span Rn as long as it contains n
vectors.
○ D. If a set of vectors includes the zero vector 0, then there is no reasonable way to determine if the set of vectors
spans Rn.
E. If a set of vectors includes the zero vector 0, then the set of vectors cannot span Rn.
F. none of the above
Which of the following sets of vectors are linearly independent? (Check the boxes for linearly independent sets.)
☐ A.
{
7
4
3
13
-9
8
-17
7
☐ B.
0
-8
3
☐ C.
0
☐
D.
-5
☐ E.
3
☐ F.
4
TH
Chapter 2 Solutions
Pearson eText College Algebra -- Instant Access (Pearson+)
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