QUADRATIC WORD PROBLEMS



QUADRATIC WORD PROBLEM (DAY 2)

CONSECUTIVE INTEGERS/GEOMETRIC PROBLEMS

Review of Consecutive Integers “Let Statements”:

• Consecutive Integers:

• Consecutive Even Integers:

• Consecutive Odd Integers:

1. Find two consecutive odd integers whose product is 99.

2. A certain number added to its square is 30. Find the number.

3. The square of a number exceeds the number by 72. Find the number.

4. Find two consecutive positive integers such that the square of the first decreased by 17 equals 4 times the second.

5. The ages of three family children can be expressed as consecutive integers. The square of the age of the youngest child is 4 more than eight times the age of the oldest child. Find the ages of the three children.

6. The altitude of a triangle is 5 less than its base. The area of the triangle is 42 square inches. Find its base and altitude

7. The length of a rectangle exceeds its width by 4 inches. Find the dimensions of the rectangle if its area is 96 square inches.

8. If the measure of one side of a square is increased by 2 centimeters and the measure of the adjacent side is decreased by 2 centimeters, the area of the resulting rectangle is 32 square centimeters. Find the measure of one side of the square (the original figure).

SIMPLIFYING RADICALS (DAY 3)

What is a perfect square? ___________________________________________________

What happens when you take the square root ([pic]) of a perfect square (VIPS)?

When solving quadratics, the answer is not always a perfect square when you take the [pic]of a number.

In order to find the answer you will need to SIMPLIFY the [pic] of non- perfect squares.

Simplify the following:

1) [pic] 2) -[pic] 3) -[pic]

4) [pic] 5) [pic] 6) [pic]

7) [pic] 8) [pic] 9) [pic]

10) [pic] 11) [pic] 12) [pic]

Pythagorean Theorem Formula: _________________________________________

13) Given a right triangle with leg of 8 m and a hypotenuse of 12m, determine

the length of the other leg in simplest radical form.

14) Given a right triangle with a hypotenuse of [pic] and a leg of 10. Find the length of the missing leg in simplest radical form.

15. Given a right triangle with a leg of 8cm and a leg of 6cm. Find the length of the hypotenuse in simplest radical form.

SIMPLIFYING RADICALS CONT…(DAY 4)

1) [pic] 2) [pic] 3) [pic]

4) [pic] 5) [pic] 6) [pic]

7) [pic] 8) [pic] 9) [pic]

10) The length of the hypotenuse of a right triangle is 13cm. One leg is 7cm, find the length of the other leg in simplest radical form.

11) A woman casts a shadow of 11ft. The measure from the top of her head to the tip of the shadow is 12.5ft. How tall is the woman to the nearest foot?

12) Given a right triangle with a hyptoneuse of [pic]and a leg of 8, find the length of the missing leg in simplest radical form.

SOLVING QUADRATICS THAT CAN’T BE FACTORED

OPTION 1: COMPLETING THE SQUARE (DAY 5)

1) What is a quadratic equation?

2) What are the zeros (roots) of a quadratic equation? (algebraically and graphically)

3) What are some methods you know of to find the roots of a quadratic equation?

4) Factor: [pic]

5) [pic] is an example of a perfect square trinomial. Explain why.

|Procedure for Completing the Square |2x2 – 12x + 14 = 0 |

|1. Rearrange the equation: | |

|Get terms with variables on the left hand side. | |

|Get c# by itself on the right hand side | |

| | |

| | |

| | |

| | |

| | |

| | |

|2. If a# > 1 then divide through by a#. | |

|3. | |

|Identify the b# | |

|(half it - square it - add it to both sides) | |

|(This will form a perfect square trinomial) | |

|4. | |

|Write Expression as a perfect square trinomial | |

| | |

|Simplify the # on the other side | |

| | |

| | |

| | |

| | |

|5. | |

|Square root both sides | |

|Put a [pic]on the right in front of term | |

| | |

| | |

| | |

|6. Solve for x to find the roots. | |

| | |

| | |

Solve each quadratic equation by completing the square; express each root in simplest radical form.

1) [pic] 2) [pic]

3) [pic] 4) [pic]

COMPLETING THE SQUARE CONT… (DAY 6)

Recall basic steps:

1) Solve [pic] by completing the square; express the result in simplest form.

2) Brian correctly used a method of completing the square to solve the equation

x[pic]+ 7x – 11 = 0. Brian’s first step was to rewrite the equation as x[pic]+ 7x = 11. He then added a number to both sides of the equation. Which number did he add?

1) [pic] 2) [pic] 3) [pic] 4) 49

3) If x2 + 2 = 6x is solved by completing the square, an intermediate step would be

(1) (x + 3)2 = 7

(2) (x – 3)2 = 7

(3) (x – 3)2 = 11

(4) (x – 6)2 = 34

4) The senior class at Bay High School buys jerseys to wear to the football games. The cost of the jerseys can be modeled by the equation C=0[pic], where C is the amount it costs to buy x jerseys. How many jerseys can they purchase for $430?

5) Collin is building a deck on the back of his house. He has enough lumber for the deck to be 144 square feet. The length should be 10 feet more than its width. What should the dimensions of the deck be?

6) The product of two consecutive negative odd integers is 483. Find the integers.

7) Solve [pic]by completing the square.

SOLVING QUADRATICS THAT CAN’T BE FACTORED

OPTION 2: QUADRATIC FORMULA (DAY 7)

Recap: Solve [pic]by completing the square

Completing the square and factoring are not always the best method to use when solving a quadratic as illustrated above.

To DERIVE a new method to solve a quadratic we go back to the beginning.

|DERIVE QUADRATIC FORMULA USING COMPLETING THE SQUARE |[pic] |

|1. Rearrange the equation: | |

|Get terms with “x” on the left hand side. | |

|Get c# (variable) by itself on the right hand side | |

|2. Divide through by a. | |

|3. Identify the b# (half it - square it - add it to both sides) | |

|(Since there are no #’s to half—literally show multiplying by [pic]) | |

|Square this “expression part”—add it to both sides | |

|4. Write Expression as a perfect square trinomial | |

|Simplify the other side (adding fractions need common denominators)--Answer should be in Standard | |

|Form. | |

|5. Square root both sides | |

|Put a [pic]on the right in front of term | |

|(Fractions already have Common Denominator) – just write final expression. | |

|6. NOW you have a new formula called the | |

| | |

|Quadratic Formula | |

|(you can remember this formula through a song) | |

To remember formula sing/hum the phase below to the “pop goes the weasel song”

“x =’s negative b, plus or minus the square root of b2 minus 4 a c, all over 2 a”

******WRITE THE FORMULA DOWN AS YOU SING THE SONG******

Solve the following using the quadratic formula, answers should be in simplest radical form when possible.

1) Solve for x: x2 – 12x = -20 2) Solve for x: 2x2 + 9x = 18

Quadratic Formula:

3) Solve for x: x2 – 5x – 3 = 0 4) Solve for x: 2x2 – 4x = 1

5) Solve for x: 5x2 – 2 = 3x

QUADRATIC FORMULA – CONTINUED (DAY 8)

Quadratic Formula:

What is the quadratic formula used for?

Give some reason(s) to use the quad formula instead of completing the square method.

Solve the following using the quadratic formula. Answer should be in simplest radical form when possible.

1) Solve for x: -3x[pic]= 8x – 12 2) Solve for x: 3x2 + 5x – 12 = 0

3) The Demon Drop at Cedar Point in Ohio takes riders to the top of a tower and drops them 60 feet. A function that approximates this ride is h= -16t[pic]+ 64t + 60, where h is the height in feet and t is the time in seconds. About how many seconds does it take for riders to drop 60 feet?

4) The percent of U.S. households with high speed Internet h can be estimated by

h = -0.2n[pic]+ 7.2n + 1.5, where n is the number of years since 1990. Use the Quadratic Formula to determine when 20% of the population will have high speed Internet.

5) Solve the following quadratic equation, x[pic]= -7x – 5, selecting a method that we learned, and state why you chose that method.

METHODS OF FINDING ROOTS (ZEROS) OF QUADRATIC EQUATIONS (DAY 9)

|METHOD |REASON TO USE THIS METHOD |QUICK PROCDURE |

| | | |

| | | |

| | | |

| | | |

| | | |

| | | |

| | | |

| | | |

| | | |

| | | |

| | | |

| | | |

| | | |

| | | |

| | | |

| | | |

| | | |

| | | |

| | | |

| | | |

| | | |

Find the roots by FACTORING:

1) x2 – 12x = -27 2) 2x2 + 3 = -7x

Find the roots by FACTORING:

3) x2 – 64 = 0 4) [pic]

Solve the equation using the QUADRATIC FORMULA, leave answers in simplest radical form.

5) x2 – 5x – 3 = 2 6) [pic]

Find the roots by COMPLETING THE SQUARE, leave answers in simplest radical form.

9) 3x2 - 2x – 4 = 0 10) [pic]

-----------------------

VIPS LIST

PROCEDURE TO SIMPLIFY RADICALS (non-perfect squares):

1. List perfect squares from 1 to 169 out. (VIPS) (create a list)

2. Determine where the number that you are simplifying would fall in this list.

3. Work UP the list to #1 to locate the largest perfect square that goes into your number.

4. Once found, break up your original [pic] (house) by placing the largest perfect square number found under the first [pic] sign and place its divisor under the second [pic] sign.

5. Circle the perfect square. – IT IS SO PERFECT THAT …

VIPS LIST

Steps for using the Quadratic Formula: (Use when quad equation = 0)

• Get equation equal to ZERO!!!

• Put Equation in standard form: __________________________

• Identify the a, b, and c #’s.

• Plug into the formula and simplify.

................
................

In order to avoid copyright disputes, this page is only a partial summary.

Google Online Preview   Download