Download 1) (-3) + (-6) = 2) (2) + (-5) = 3) (-7) + (-1) = 4) (-3) - (-6) = 5) (+2) - (+5) = 6) (-7) - (-4) = 7) (5)(-4)...
Extra Practice for Lesson 1 Add or subtract. 1) (-3) + (-6) =
2) (2) + (-5) =
3) (-7) + (-1) =
4) (-3) - (-6) =
5) (+2) - (+5) =
6) (-7) - (-4) =
8) (-3)(-6) =
9) (-1)(2) =
Multiply. 7) (5)(-4) =
Division is the inverse of multiplication. Use what you know about multiplication to answer the questions. 10) A negative times a positive is negative. (-2)(3) = (-6) Dividing the negative answer by the positive factor gives a __________________ answer.
11) A negative times a positive is negative. (-2)(3) = (-6) Dividing the negative answer by the negative factor gives a __________________ answer.
12) A negative times a negative is positive. (-2)(-3) = (+6) Dividing the positive answer by either negative factor gives a __________________ answer.
Divide. 13) (-16) ÷ (-4) =
14) (-20) ÷ (5) =
15) (32) ÷ (-8) =
17) -82 =
18) -(8)2 =
Simplify. 16) (-8)2 = Simplify by combining like terms. 19) 6X - 7Y - 4Y + 11X - 8 =
20) 9X + 2Y + 3X - Y =
21) 12B + 8A - 9A - 10B =
22) 4C - 3D + 7C - 4 + 3 =
True or False. 23) Division is commutative. 24) Multiplication is associative. 25) Addition is associative.
Extra Practice for Lesson 2
Find the least common multiple (LCM) using whichever method you prefer. 1) 24 and 48
2) 10 and 15
3) 9 and 11
4) 35 and 56
5) 36 and 25
6) 54 and 32
Use PARAchute EXpert My Dear Aunt Sally to simplify each expression. 7)
-32 · 2 + 22 =
8)
9)
(-5)2 · 9 ÷ 3 =
10)
10 · 32 + 18 =
14(2 + 12 ) - 4 =
11)
9 + 33 ÷ 3 - 72 =
12)
4X - 4Y + 6X + 5Y - 1 =
13)
4 · 62 =
14)
5 - 23 =
15)
−32 - 72 =
16)
92 - 32 =
17)
- 52 + 12 - 52 + (2 x 32 ) =
18)
6+3÷3-8+4x5=
Extra Practice for Lesson 3
Simplify, then solve and check. 1) -4A + 3 + 7A - 2 = 8 + 2
2) 2C - C + 8 + 3C = 16
3) -5Y + 7 + 8Y + 4 + Y = 15
4) B + 2B - 8 + 5B = (3 x 4) + 4
5) 4K + 2 + 2K + K - 2 = 72
6) 7Q - 4Q + 10 - 9 + Q = 22 -1
7) 6 + 5A = 3A + 18
8) 10R + 2R - 9 = 10 - 7
9) C + C - 4 + 8C = 2C + 2 · 6
10) 12 ÷ 4 + 6X = 25 + 26
11) -2Y - 2 - 5Y + 9Y + 4 = 3 · 4
12) -8 + 2E + 5 - E + 5E = 32 + 6
13) 2R - 8R + 3 + 7R = 10
14) 8 - 6 + 7Z + 5Z = (100 · 2) ÷ 4
Extra Practice for Lesson 4 Rewrite each expression using the distributive property. Simplify if possible. 1) 6(3 + 2) =
2) 7(3 + 4 + 1) =
3) 5(X + Y) =
4) 2(4M + 2Q) =
5) 3(A + 3B - 2 + 4A) =
6) 4(X + 2Y + 4 + X) =
Rewrite each expression using the distributive property in reverse. (Find the greatest common factor.) The first one is done for you. 7) 2X + 2Y = 2(X + Y)
9) 21X + 14Y =
8) 4A - 8B =
10) -5M - 10N =
11) 5B + 15C =
12) -5X + 20A =
Simplify each equation using the greatest common factor, then solve for the unknown. The first one is done for you. 13) 4A + 12 = 48
14) 8B + 16 = 56
4(A + 3) = 4(12) A + 3 = 12
dividing each side by 4
A=9
15) 12X - 36 + 36X = 60
16) 6Y - 12 - 3Y = 18
17) 5A + 20 = 30
18) 2Q - 14 = 24
Extra Practice for Lesson 5 Follow the directions for each graph 1)
Write the coordinates of point A.
2)
What quadrant is this?
3)
Write the coordinates of point B.
Y
A
• B
4)
What quadrant is this?
5)
Write the coordinates of point C.
•
•C X
6)
What quadrant is this?
7)
Write the coordinates of point D.
8)
What quadrant is this?
9)
Write the coordinates of point E.
10)
E• •D
What quadrant is this? Y
11)
Graph and label point F. (-5, 3)
12)
What quadrant is this?
13)
Graph and label point H. (2, 3) X
14)
What quadrant is this?
15)
Graph and label point J. (3, -5)
16)
What quadrant is this?
17)
What are the coordinates of the origin?
18)
In the 2nd quadrant X is ___________ and Y is ___________.
19)
Graph (4, 1), (4, -1) and (4, 4). What do these have in common?
20)
If you draw a line through these points it has an X coordinate of _____.
Extra Practice for Lesson 6 1) Pamʼs Pie Pantry had two backorders for cherry pies. Pam can bake three pies every hour. Fill in the blanks.
Hours Pies 0
Y
-2
2) Plot the points and connect them. X
3) Write an equation for the line.
4) Sue had three flower arrangements completed when the photographer arrived to set up. Sue can complete one flower arrangement per hour. Fill in the blanks.
Hours 0
Arr. 3 Questions 2 and 5
5) Plot these points and connect them. 6) Write an equation for the line.
7) Tommy had completed two math word problems when his mother came home. Tommy can complete four math word problems per hour. Fill in the blanks.
Hours
Problems
Y
2
8) Plot these points and connect them. (You will have to estimate the last point, as it is off the drawn graph.)
X
9) Write an equation for the line.
10) Fill in the blanks for the following equation: Y = 3X + 1 11) Plot the points and connect them 12) Write a word problem that fits the graph.
x
y Questions 8 and 11
Extra Practice for Lesson 7A amd 7B If your book has 35 lessons, use this practice page after doing lessons 7 and 8. Fill in the blanks. The first two are done for you. 0 1) The slope of a horizontal line is______________. Slope = rise/run = 0/run = 0 (0/any number is 0). undefined 2) The slope of a vertical line is______________. Slope = rise/run = rise/0 = undefined (you cannot divide by zero) 3) The formula Y = mX + b is called the______________formula. 4) Horizontal lines have a slope of______________. 5) The line Y = 4X - 5 has a slope of______________. 6) The line Y = -3X + 2 has a Y-intercept of______________ 7) Give an example of a line with a Y-intercept of 0.
Estimate the slope and intercept of the lines and match each with the most probable equation. Y 8) Y = 3 E 9) X = 3
D C
10) Y = -X - 4
X
11) Y = 2X + 6
A
12) Y = X B
Y
Draw a line for each of the equations. 13) X = -2
14) Y = -1
15) Y = -X - 1
16) Y = 1/2X + 2
X
Extra Practice for Lesson 9 This and subsequent pages are numbered to correspond to the 35 lesson verson of Algebra 1. Subtract one from each lesson number if your version has 34 lessons. Y 1) Plot the points (-1, 1) and (-2, 3). 2) Make a right triangle and determine the slope. 3) Estimate the Y-intercept by extending the line until it intercepts the Y axis. X
4) Describe the line with the slope-intercept form. 5) Which of the following lines are parallel to the line you drew? (There may be more than one answer.) A) 4Y = -8X + 3 B) Y + 2X = 0 C) Y - 2X = 4 Problems 1 - 8 6) Draw a line parallel to the original line, but passing through (2, 1). 7) Describe the new line with the slope-intercept form. 8) Describe the new line with the standard form of the equation of a line. 9) Plot the points (-4, -2) and (-2, -1). Y 10) Make a right triangle and determine the slope. 11) Estimate the Y-intercept by extending the line until it intercepts the Y axis.
X
12) Describe the line with the slope-intercept form. 13) Which of the following lines are parallel to the line that you drew? (There may be more than one answer.) A) 3Y = -X + 3 B) 6Y = 3X + 3 C) 4Y = 2X + 1 Problems 9 - 16 14) Draw a line parallel to the original line, but passing through (2, 3). 15) Describe the new line with the slope-intercept form. 16) Describe the new line with the standard form of the equation of a line.
Extra Practice for Lesson 10 1) Plot the points (2, 2) and (1, 3).
Y
2) Make a right triangle and determine the slope. 3) Extend the line and estimate the Y-intercept. 4) Describe the line with the slope-intercept form. X 5) Which of the following lines is perpendicular to the line you drew? (There may be more than one answer). A) Y = -X + 7 B) 2Y - 2X = 3 C) Y = X 6) Draw a line perpendicular to the original line, but passing through the point (-2, -3).
Problems 1 - 8
7) Describe the new line with the slope-intercept form. 8) Describe the new line with the standard form of the equation of a line.
9) Plot the points (-4, -2) and (-2, -1) Y 10) Make a right triangle and determine the slope. 11) Extend the line and estimate the Y-intercept. 12) Describe the line with the slope-intercept form. 13) Which of the following lines is perpendicular to the line you drew? (There may be more than one answer).
X
A) 6Y - 3X = 1 B) 4Y = 2X + 4 C) 2Y + 4X = 3 14) Draw a line perpendicular to the original line, but passing through the point (2, -1). 15) Describe the new line with the slope-intercept form. 16) Describe the new line with the standard form of the equation of a line.
Problems 9 - 16
Extra Practice for Lesson 11 1) Draw a line with m = -4/5 through the point (2, 0).
Y
2) Estimate the Y-intercept, then check by computing. 3) Describe the line using the slope-intercept form.
4) Describe the line using the standard equation of a line. 5) Find the slope of the line passing through the points (-2, -3) and (0, 4), then draw to check.
6) Find the Y-intercept by computing first. Then confirm by checking your drawing from #5. 7) Describe the line using the slope-intercept form.
8) Describe the line using the standard equation of a line.
Given the slope of the line and a point on the line, describe the following lines using the slope-intercept form. 9) m = 1, (0, 3) 10) m = -1/2, (-1, 1)
11) m = -2/3, (-1, 2) 12) m = 3/4, (2, 3)
13) m = 2, (-2, -3) 14) m = 4, (2, 0)
Given two points on a line, find the slope and Y-intercept of the line and describe the line using the slope-intercept form. 15) (2, 3) (-1, 2) 16) (-2, -3) (2, 0)
X
Extra Practice for Lesson 12 Follow the steps to graph each inequality.
Y
2X + Y < 4 1) Graph 2X + Y = 4. X
2) Will this be a solid line or a dotted line? 3) Choose 2 points, ( , ) ( , ), one on each side of the line. 4) Shade in the graph.
-Y ≥ 3X + 1 (Hint: First multiply by -1 to remove the negative Y. The problem we are solving becomes Y ≤ -3X - 1.)
Y
5) Graph Y = -3X - 1 6) Will this be a solid line or a dotted line?
X
7) Choose 2 points, ( , ) ( , ), one on each side of the line. 8) Shade in the graph.
X - 2Y ≤ 2 9) What is the appropriate line to graph for this inequality? Graph that line.
Y
10) Will this be a solid line or a dotted line? 11) Choose 2 points, ( , ) ( , ), one on each side of the line. 12) Shade in the graph.
Write each inequality in slope-intercept form. 13) X - 4Y > 2 14) -2X + 3Y ≤ 5 15) 5X - 5Y < -15
X
Extra Practice for Lesson 13 Follow the directions. 1) Draw line a: Y = X + 2 and label it “a”. 2) Draw line b: X + Y = -4 and label it “b”. 3) Record the point where line a and line b intersect. 4) Draw line c: 2X - Y = 5 and label it “c”.
5) Draw line d: 3Y = -9X and label it “d”. 6) Record the point where line c and line d intersect.
7) Draw line e: -3X + Y = 6 and label it “e”. 8) Draw line f: X + 2Y = -2 and label it “f”. 9) Record the point where line e and line f intersect. 10) Draw line g: 4X - Y = -3 and label it “g”. 11) Draw line h: X + Y = 3 and label it “h”. 12) Record the point where line g and line h intersect.
13) Draw line j: 3X - 2Y = -6 and label it “j”. 14) Draw line k: X + Y = -2 and label it “k”. 15) Record the point where line j and line k intersect. 16) Draw line r: -2X + 3Y = 6 and label it “r”. 17) Draw line s: 5X - 3Y = 3 and label it “s”. 18) Record the point where line r and line s intersect.
Extra Practice for Lesson 14 Y Follow the directions for each set of equations. X + 2Y = 4
3X - Y = 5
1) Draw each line and estimate the solution. X
2) Use the substitution method to find X.
3) Using the solution to #2, substitute to find Y.
Y = 1/2X
X - 3Y = -3
Y
4) Draw each line and estimate the solution.
5) Use the substitution method to find X. X 6) Using the solution to #5, substitute to find Y.
X+Y=2
-2X + Y = 5
7) Draw each line and estimate the solution.
Y
8) Use the substitution method to find Y.
9) Using the solution to #8, substitute to find X. X
2X + 3Y = 9
5X - 3Y = 12
10 Use the substitution method to solve the equations.
Extra Practice for Lesson 15 Follow the directions for each set of equations.
Y
-X + Y = 1, X + 2Y = -4 1)
Draw each line and estimate the solution.
2)
Use the elimination method to find Y.
3)
Using the solution to #2, substitute to find X.
X
Y 2X + 3Y = 6, 4X + 3Y = 0 4)
Draw each line and estimate the solution.
5)
Use the elimination method to find X. X
6)
Using the solution to #5, substitute to find Y.
Y -5X + 2Y = 8, 3X + 2Y = -8 7)
Draw each line and estimate the solution.
8)
Use the elimination method to find X. X
9)
Using the solution to #8, substitute to find Y.
4X - 2Y = 12, 3X + 2Y = -5 10)
Use the elimination method to solve the equations.
Extra Practice for Lesson 16 Follow the directions to find the number of coins. There are 65 coins made up of pennies and nickels. The total value is $1.05. 1) Write two equations, one for the number of coins and one for the value.
2) How many pennies are there?
3) How many nickels are there?
There are 17 coins made up of quarters and nickels. The total value is $2.85. 4) Write two equations, one for the number of coins and one for the value.
5) How many quarters are there?
6) How many nickels are there?
There are 16 coins made up of nickels and dimes. The total value is $1.05. 7) Write two equations, one for the number of coins and one for the value.
8) How many nickels are there?
9) How many dimes are there?
There are 30 coins made up of quarters and pennies. The total value is $2.46. 10) Write two equations, one for the number of coins and one for the value.
11) How many quarters are there?
12) How many pennies are there?
Extra Practice for Lesson 17 Follow the directions to find the unknown integers. Find three consecutive integers such that the sum of the first and the second is equal to nine more than the third. 1) Represent each integer with an unknown. 2) Write an equation using the unknowns. 3) Solve for the three integers. 4) Check by substituting the integers in your equation.
Find three consecutive integers such that the sum of the first plus twice the second plus three times the third is equal to four times the first. 5) Represent each integer with an unknown. 6) Write an equation using the unknowns. 7) Solve for the three integers. 8) Check by substituting the integers in your equation.
Find three consecutive odd integers such that six times the second is equal to twice the first. 9) Represent each integer with an unknown. 10) Write an equation using the unknowns. 11) Solve for the three integers. 12) Check by substituting the integers in your equation.
Find three consecutive even integers such that the sum of all three integers is equal to six less than four times the second integer. 13) Represent each integer with an unknown. 14) Write an equation using the unknowns. 15) Solve for the three integers. 16) Check by substituting the integers in your equation.
Extra Practice for Lesson 18 Simplify each expression. 1)
142 =
2)
3)
(-7)2 =
4)
(5)3 =
5)
324 =
6)
33 =
7)
72 · 74 =
8)
93 · 97 =
9)
810 ÷ 87 =
10)
64 ÷ 63 =
11)
A2 A5 A4 =
12)
R2 S3 R1 S4 =
13)
2R · 2S =
14)
B6X ÷ B2X =
15)
P12 · P3 ÷ P5 =
16)
A2 B 2 C 2 B 3 C 2 =
121=
€
Extra Practice for Lesson 19 Write on one line. 1
1) 3
−2
=
2)
1 = 3 2
4)
3-1 =
6)
4-2 4-5 =
8)
(R-3) -6 =
Rewrite using positive exponents. 3)
A-2 =
Simplify each expression. 5)
52 5-6 =
7) (2-4) 5 =
€
(7-2) 2 =
10) A2 B2 A-2 B =
11)
R-3 S-2 S R =
12)
A2 B C-2 B2 C =
13)
B-8 · B2 ÷ B-6 =
14)
R12X ÷ R4X =
15)
B4 C2 B −3C2 = 2 −3 BC C
16)
9)
2 4 −2
Q R Q
3 −1 −2
R Q R
Q
=
Extra Practice for Lesson 20 Build. 1) X2 + 9
2) X2 + 5X - 3
3) 2X2 - 8
Build and add. X2 - 2X + 5
4) +
3X2
5)
X2 + 3X - 2
-X
4X2 - 2X - 3
6)
+ 2X2 + 6X + 3
+ 2X2 + 2X + 3
Build a rectangle and find the area (product) 7) (X + 1)(X + 3) =
8) (X + 2)(X + 4) =
9) (X + 2)(X + 5) =
Multiply. 10)
3X + 1
11)
x X+5
13)
X–2
X–1 x X–2
12)
x 3X + 1
14)
x 2X + 3
16)
2X + 2
5X – 1 x
17)
x X+2
15)
X–2
3X – 2 x 4X – 2
4X + 1
6X + 2 x
18)
X–2
X–4 x 3X + 3
Extra Practice for Lesson 21 Build a rectangle and find the factors. Check by multiplying. 1)
X2 + 5X + 6
2)
X2 + 6X + 8
3)
X2 + 8X + 12
4)
X2 + 4X + 4
5)
X2 + 7X + 6
6)
X2 + 9X + 14
7)
X2 + 5X + 4
8)
X2 + 6X + 5
Find the factors and check by multiplying. (You will not have enough blocks to build most of these) 9)
X2 +11X + 24
10)
X2 + 16X + 63
11)
X2 + 10X + 24
12)
X2 + 14X + 33
13)
X2 + 13X + 40
14)
X2 + 8X + 15
15)
X2 + 11X + 18
16)
X2 + 10X + 25
Extra Practice for Lesson 22 Build and find the factors, then check by multiplying. Donʼt forget to look for a greatest common factor first. 1)
2X2 + 20X + 42
2)
5X2 + 10X + 5
3)
3X2 + 27X + 42
4)
2X2 + 32X + 30
5)
2X2 + 14X + 24
6)
3X2 + 15X + 18
7)
4X2 + 36X + 32
8)
2X2 + 18X + 40
Find the factors, then check by multiplying. Donʼt forget to check for a GCF. (You may not have enough blocks to build some of these.) 9)
2X2 + 20X + 32
10)
2X2 + 22X + 56
11)
3X2 + 39X + 66
12)
4X2 + 28X + 48
13)
10X2 + 80X + 150
14)
2X2 + 22X + 60
15)
4X2 + 20X + 16
16)
3X2 + 39X + 108
Extra Practice for Lesson 23 Factor each polynomial and check by multiplying. 1)
X2 -7X + 10
2)
X2 - 7X + 6
3)
X2 - 9X + 14
4)
X2 - 7X + 12
5)
X2 - 9X + 8
6)
X2 - 10X + 21
7)
X2 - 12X + 27
8)
X2 - 11X + 30
9)
X2 - 19X + 90
10)
X2 - 14X + 33
11)
X2 + 4X - 21
12)
X2 + 2X - 35
13)
X2 + 3X - 18
14)
X2 - 5X - 36
15)
2X2 - 9X - 5
16)
2X2 + 5X - 12
Extra Practice for Lesson 24
Find the square root and check.
1)
X2 + 8X + 16
2)
X2 + 2X + 1
3)
X2 + 16X + 64
Divide and check.
4)
X + 4 X2 + 7X + 12
5)
X + 5 X2 - 7X + 10
6)
X + 3 X2 + 9X + 5
7)
X - 1 X2 + 4X + 16
8)
X + 6 X2 + 12X + 18
9)
X + 1 2X2 + 4X - 5
Challenge.
10)
X + 4 X3 - 3X2 - 9X - 10
11)
X + 1 2X3 + 8X2 + 4X + 8
Extra Practice for Lesson 25 Find the factors and check by multiplying. 1)
X2 - 9
2)
X2 - 64
3)
X2 - 36
4)
Y2 - 81
5)
X2 - 1
6)
X2 - 4
7)
X2 - 100
8)
4X2 - 121
9)
A2 - 144
10)
9X2 - 9Y2
11)
B2 - 16
12)
X2 - 25
13)
45 x 45
14) 852
15)
36 x 34
16)
68 x 62
Extra Practice for Lesson 26 Factor completely. 1)
Y4 - 16
2)
A4 - B4
3)
4X3 - 4X
4)
X6 - Y6
5)
4X3 + 20X2 + 24X
6)
2Y3 + 2Y2 - 12Y
7)
2B3 + 13B2 + 6B
8)
6X2 - 18X
9)
4Y3 - 16Y
10)
2X4 - 2X3 - 24X2
11)
3X3 + 9X2 - 30X
12)
4X2 - 36
13)
A3 + 6A2 + 5A
14)
6X3 + 6X2 - 12X
15)
2Y3 + 3Y2 - 9Y
16)
2X3 - 50X
Extra Practice for Lesson 27 Follow the directions. Be sure to factor each equation completely. X2 + 5X - 14 = 0 1)
Find the factors.
2)
Find all solutions of X.
3)
Check by substituting the solutions.
5B2 - 125 = 0 4)
Find the factors.
5)
Find all solutions of B.
6)
Check by substituting the solutions.
2X2 - 7X + 6 = 0 7)
Find the factors.
8)
Find all solutions of X.
9)
Check by substituting the solutions.
2X2 + 8X - 154 = 0 10)
Find the factors.
11)
Find all solutions of X.
12)
Check by substituting the solutions.
Extra Practice for Lesson 28 Follow the directions. 108 inches = _____ feet 1) Select the appropriate unit multiplier. 2) Tell which unit of measure goes in the numerator, which goes in the denominator, and why. 3) Solve the equation.
96 feet = _____ yards 4) Select the appropriate unit multiplier. 5) Tell which unit of measure goes in the numerator, which goes in the denominator, and why. 6) Solve the equation.
45 pounds = _____ ounces 7) Select the appropriate unit multiplier. 8) Tell which unit of measure goes in the numerator, which goes in the denominator, and why. 9) Solve the equation.
25 meter = _____ centimeters 10) Select the appropriate unit multiplier. 11) Tell which unit of measure goes in the numerator, which goes in the denominator, and why. 12) Solve the equation.
7.8 milliliters = _____ liters 13) Select the appropriate unit multiplier. 14) Tell which unit of measure goes in the numerator, which goes in the denominator, and why. 15) Solve the equation.
50 meters = _____ kilometers 16) Select the appropriate unit multiplier. 17) Tell which unit of measure goes in the numerator, which goes in the denominator, and why. 18) Solve the equation.
Extra Practice for Lesson 29 Use unit multipliers to solve. 1) 4 ft2 (square feet) = _________ in2 (square inches)
2) 5 m2 (square meters) = _________ cm2 (square centimeters)
3) .2 ft2 (square feet) = _________ in2 (square inches)
4) 2.5 ft2 (square feet) = _________ in2 (square inches)
5) 4 m3 (cubic meters) = _________ dm3 (cubic decimeters)
6) 2 km3 (cubic kilometers) = _________ m3 (cubic meters)
7) 67.5 ft3 (cubic feet) = _________ yd3 (cubic yards)
8) 3,456 in3 (cubic inches) = _________ ft3 (cubic feet)
9) 46,656 in3 (cubic inches) = _________ yd3 (cubic yards)
10) 150 cm3 (cubic centimeters) = _________ m3 (cubic meters)
11) 25 cm2 (square centimeters) = _________ m2 (square meters)
Fill in the blanks. 12) 1 acre = _________ ft2 (square feet) 13) 1 cord (of wood) = _____ ft x _____ ft x_____ ft = _________ ft3 (cubic feet) 14) 1 yard (of concrete) = _________ ft3 (cubic feet) 15) 1 yard (of carpet) = _________ ft2 (square feet)
Extra Practice for Lesson 30 Fill in the blanks with approximate values. 1) 1 centimeter = _________ inches 2) 1 meter = _________ yards 3) 1 kilogram = _________ pounds 4) 1 liter = _________ quarts 5) 1 inch = _________ centimeters 6) 1 yard = _________ meters 7) 1 mile = _________ kilometers 8) 1 ounce = _________ grams
Use unit multipliers to make the following conversions. 9) 10 inches = _________ centimeters
10) 14 grams = _________ ounces
11) 21 yards = _________ meters
12) 44 kilograms = _________ pounds
13) 4.1 miles = _________ kilometers
14) 40 liters = _________ quarts
15) 7 ounces = _________ grams
16) 500 centimeters = _________ inches
Extra Practice for Lesson 31 Simplify. 3
1)
2
42 =
25
1 2
5)
(X
3 4
7)
(Y6 · Y3 ) 3 =
3)
2)
3 1 =
4)
64 3 =
6)
(A
2 3
81
3 4
2
=
)
8 3
=
1
2 1
(9
1 4
(8
1 2
13)
(Y
1 4
15)
[(A5 ) 4 ] 3 =
9)
11)
)
)
2 3
·Y
1
8)
=
1 2
)
1 4
=
=
10)
4
·5=
12)
(X2 · X8 ) 2 =
14)
3 [(X2 ) · X2 ] 4
16)
[(M9 ) 6 ] 3 =
1
=
3 4)
5 1
3
=
2
1
2
=
Extra Practice for Lesson 32 Write each number using scientific notation. 1)
200,000
2)
458,000,000
3)
91,600,000
4)
.00032
5) .01268 6)
.0000002
Use scientific notation to solve. Remember significant digits and check your answer with a calculator. 7)
200,000 x 5,290,000,000
8)
655,000 x 21,000,000
9)
45,100 x 801,000
10)
.0006 x 3,000,000,000
11)
.00042 x 60,000
12)
.468 x .00037
13)
211,000 ÷ 9,000,000,000
14)
5, 280,000 176,000
15)
.275 ÷ .0025
Extra Practice for Lesson 33 Change from base 10 to given base. 1)
7010 = _________ 3
2)
7010 = _________ 5
3)
7010 = _________ 4
4)
20010 = _________ 6
5)
1,35210 = _________ 4
6)
1,35210 = _________ 5
Change from given base to base 10. 7)
2257 = _________ 10
8)
3025 = _________ 10
9)
12123 = _________ 10
10)
24415 = _________ 10
11)
5C212 = _________ 10
12)
B7313 = _________ 10
Extra Practice for Lesson 34 Answer the questions and graph each circle or ellipse.
X2 + Y2 = 25
(X +1)2 + (Y +1)2 = 4
1) If X = 0, Y = _____ and _____
5) If X = -1, Y = _____ and _____
2) If Y = 0, X = _____ and _____
6) If Y = -1, X = _____ and _____
3) The center is ________ .
7) The center is ________ .
4) The radius is ________ .
8) The radius is ________ .
4X2 + 2Y2 = 8
5X2 + 2Y2 = 20
9) If X = 0, Y = _____ and _____
12) If X = 0, Y = _____ and _____
10) If Y = 0, X = _____ and _____
13) If Y = 0, X = _____ and _____
11) The figure is a(n) ___________ .
14) The figure is a(n) ___________ .
15) Graph:
X2 + Y2 = 16
16) Graph:
(X + 2)2 + (Y - 4)2 = 4 Extra Practice for Lesson 35
Extra Practice for Lesson 35 Complete each table of values, then plot and draw each curve. (You may plot more points if necessary.) 2) XY = 4
1) Y = 3X2 X
Y
X
1
1
-1
-1
2
2
-2
-2
4
Y
-4
3) Y = -1/3 X2 X
Y
4) XY = -6 X
1
3
-1
-3
2
4
-2
-4
3
Y
-3 6 -6
5) Y = X2 + 1 X
Y
6) XY = -5 X
1
1
-1
-1
5
2
-5
-2
1 1/4 -1 1/4
Y
![[PDF] 1) (-3) + (-6) = 2) (2) + (-5) = 3) (-7) + (-1) = 4) (-3) - (-6) = 5) (+2) - (+5) = 6) (-7) - (-4) = 7) (5)(-4) = 8) (-3)(-6) = 9) (-1)(2) = - Free Download PDF (2024)](data:image/png;base64,iVBORw0KGgoAAAANSUhEUgAAAAEAAAABCAQAAAC1HAwCAAAAC0lEQVR42mP8/h8AAvMB+NzmkbcAAAAASUVORK5CYII=)