MATH 1311 Final Exam Review.

Slides:

Advertisements

Similar presentations

Quadratic graphs Today we will be able to construct graphs of quadratic equations that model real life problems.

Advertisements

Quiz 3-1 This data can be modeled using an Find ‘a’

Quadratic Functions and Models

Math Minutes 1/20/ Write the equation of the line.

Chapter6 6-2 comparing functions.

I. The parent function of a quadratic

Chapt. 9 Exponential and Logarithmic Functions

4.1 Composite and inverse functions

Chapter 2 Polynomial and Rational Functions

Quadratic Equations and their Applications

Calculus The Computational Method (mathematics) The Mineral growth in a hollow organ of the body, e.g. kidney stone (medical term)

Sullivan PreCalculus Section 2.3 Properties of Functions Objectives Determine Even and Odd Functions from a Graph Identify Even and Odd Functions from.

Sullivan Algebra and Trigonometry: Section 3.2 Objectives Find the Average Rate of Change of Function Use a Graph to Determine Where a Function Is Increasing,

1) f(x) = x 2 – 3 x + 2. The domain of f(x) is {1, 3, 5, 7}. Find the range. f(1) = 1 – = 0 f(3) = 9 – = 2 f(5) = 25 – = 12 f(7) =

Unit 2 – Quadratic, Polynomial, and Radical Equations and Inequalities Chapter 5 – Quadratic Functions and Inequalities 5.8 – Graphing and Solving Quadratic.

Final Exam Schedule – Fall, :00 ClassThursday, December 1110:30 – 12:30 2:00 ClassThursday, December 111:00 – 3:00 3:30 ClassTuesday, December 93:30.

Horizontal and Vertical Lines Vertical lines: Equation is x = # Slope is undefined Horizontal lines: Equation is y = # Slope is zero.

Introduction Relationships can be presented through different forms: tables, equations, graphs, and words. This section explores how to compare functions.

How do I use intervals of increase and decrease to understand average rates of change of quadratic functions?

3.1 Quadratic Functions. Polynomials- classified by degree (highest exponent) Degree: 0 -constant function-horizontal line 1 -linear function- 2 -quadratic.

Jeopardy Factoring Quadratic Functions Zeroes and Vertex Describing Polynomials Modeling & Regression Q $100 Q $200 Q $300 Q $400 Q $500 Q $100 Q $200.

SECTION 3.4 POLYNOMIAL AND RATIONAL INEQUALITIES POLYNOMIAL AND RATIONAL INEQUALITIES.

How do we translate between the various representations of functions?

Essential Question: How do you sketch graphs and write equations of parabolas? Students will write a summary of the steps they use toe sketch a graph and.

Day 15: Quadratics. 1. Which ordered pair represents one of the roots of the function f(x) = 2x 2 + 3x − 20? F (− 5/2, 0) H (−5, 0) G(−4, 0) J (−20, 0)

FUNCTIONS REVIEW PRE-CALCULUS UNIT 1 REVIEW. STANDARD 1: DESCRIBE SUBSETS OF REAL NUMBERS What are the categories? Where would these be placed? 7, 6,

JEOPARDY! Sequences & Series $100 $200 $300 $400 $500 $100 $200 $300 $400 $500 $100 $200 $300 $400 $500 $100 $200 $300 $400 $500 $100 $200 $300 $400.

4.1 Exponential Functions I can write an exponential equation from an application problem I can use an exponential equation to solve a problem.

Holt Algebra Linear, Quadratic, and Exponential Models Warm Up 1. Find the slope and y-intercept of the line that passes through (4, 20) and (20,

Bellwork Evaluate each expression Solve. for x = bacteria that double 1. every 30 minutes. Find the 2. number of bacteriaafter 3 hours

GSE Algebra I EOC Review Units 3 – 6. Unit 3: Quadratic Functions Key Ideas Factoring Vertex and Standard Form Solving by various methods Building Functions.

NOTES 0-5C QUADRATIC FORMULA Student Learning Goals: Students will be able to solve quadratic equations using the quadratic formula.

The Computational Method (mathematics)

MATH 1311 Test 3 Review.

Name:__________ warm-up 9-2

22. Use this table to answer the question.

How do we compare properties of two functions?

Bellwork Identify the focus, directrix, and axis of symmetry of the parabola. Graph the equation. Also describe the Transformations 6

GSE Algebra I EOC Review Units 3 – 6.

Functions JEOPARDY.

Direct Variation and Graphing Linear Functions

Basic Math Skills.

College Algebra: Lesson 1

Composition of Functions 1.

Midterm Review Minute to Win It

We can use an equation, graph or table

MATH 1311 Test 2 Review 10 multiple choice questions (Test 2): 80 points 2 free response questions (Test 2 FR): 20 points.

Lesson 8-10 Nonlinear Systems

2.4 Modeling with Quadratic Functions

9-4 Quadratic Equations and Projectiles

Copyright © Cengage Learning. All rights reserved.

Polynomial and Rational Functions

Welcome to the Famous Hoosier Jeopardy Game!.

Jeopardy Chapter 7 Q $100 Q $100 Q $100 Q $100 Q $100 Q $200 Q $200

MTH-4109 Review/Pretest B 1. A car travels at a constant speed of 110 km/hr between Montreal and Toronto. Determine the independent variable for this.

Warm-up: Sketch y = 3|x – 1| – 2

MATH 1311 Final Exam Review.

Essential Questions How do I use intervals of increase and decrease to understand average rates of change of quadratic functions?

JEOPARDY Functions Linear Models Exponential Models Quadratic Models

Section 2.1 Quadratic Functions.

Warm-Up 5 minutes Graph each function. Describe its general shape.

DO NOW A video game company’s revenue is represented by the equation R = –12p2 + 400p where p is the price in dollars of the video game.

Objectives Compare properties of two functions.

Find (x3 + 2x2 – 5x – 6) ÷ (x – 2) using synthetic division.

Replace inside with “x” of other function

9-1 Multiple Representations of Functions Warm Up Lesson Presentation

NO GRAPHING CALCULATORS.

f(x) g(x) x x (-8,5) (8,4) (8,3) (3,0) (-4,-1) (-7,-1) (3,-2) (0,-3)

Section MATH 1310 Section 3.2

Presentation transcript:

MATH 1311 Final Exam Review

An exponential function can be used to model the number of bacteria in a petri dish. The function: b(s, r, t) would represent the number of bacteria in the dish after t minutes have elapsed, with an initial value of s and a growth rate of r. Describe what b(1500, 0.04, 8) would represent.

The table below shows the number of trees in a forest, where t is measured in years from 1985 and N(t) is measured in thousands of trees. Find the average rate of change between t = 5 and t = 10. Use this to estimate the value for t = 6.

The table below shows the number of trees in a forest, where t is measured in years from 1985 and N(t) is measured in thousands of trees. Does this table of values represent a linear function, an exponential function, or neither. Find the function, N(t), if it either linear or exponential.

To book a catering hall, a company charges $250 per room rented and $1 To book a catering hall, a company charges $250 per room rented and $1.50 per guest. Write a function that will represent this situation.

To book a catering hall, a company charges $250 per room rented and $1 To book a catering hall, a company charges $250 per room rented and $1.50 per guest. Determine the cost of renting 3 rooms for an event that will have 200 guests.

Consider the function: f(x) = 2x+3 – 7 What is the initial value of the function?

Consider the function: f(x) = 2x+3 – 7 What is the limiting value (if it exists) of the function?

Solve the following for x: 5x + b = c

Determine all solutions to the following: 3𝑥+2 𝑥−1 =𝑥

Solve the system of equations: 4𝑥+𝑦=2 𝑦=5−𝑥

A ball thrown into the air has the following heights for specific t-values during its flight. Determine the quadratic regression of the path of the ball.

A ball thrown into the air has the following heights for specific t-values during its flight. Use the regression to determine the maximum height of the ball, and when it occurs.

A ball thrown into the air has the following heights for specific t-values during its flight. Determine when the ball hits the ground.

The façade of a house has walls that are 15 feet in height, 40 feet apart from one another. The peak of the roof is exactly halfway between the walls. What is the slope of the roof? (Assume a positive slope.)

The amount of butterflies in a nature preserve is increasing by 2% every month. By what percent will it increase by the end of the year?

The amount of butterflies in a nature preserve is increasing by 2% every month. How many months will it take for the butterfly population to reach double its original amount?

Find the rate of change for y = 3x at the value of x = 2 Find the rate of change for y = 3x at the value of x = 2. Use a interval of 1.

If df/dx is evaluates to -2 when x = 3, what can you say about f(x) when x = 3?

The following graph shows f(x). Describe the value of df/dx when x = 3.

Determine the value of f(g(x)) and g(f(x)) for the functions: f(x) = 5x – 3 and g(x) = 2x + 5

Determine the value of f(g(x)) and g(f(x)) for the functions: f(x) = 5x – 3 and g(x) = 2x + 5 Determine the values of f(g(8)) and g(f(8)).

A function has df/dx = -2f(x) where f has an initial condition of 4 A function has df/dx = -2f(x) where f has an initial condition of 4. Determine its equation.

Determine relative minimum value of: 𝑓 𝑥 = 𝑥 2 +2𝑥+1 𝑥−3

Are the following polynomial? If so, give the degree. f(x) = 5x3 + 4x2 – 2x + 1 g(x) = 3x + 5 h(x) = 4x i(x) = x½ + 3x3 j(x) = 4/x k(x) = -8x3 + 5x6 – 11x7

Construct a power function of the form: f(x) = a xk, where f(2) = 40 and f(4) = 320.

Construct a power function of the form: f(x) = a xk, where f(2) = 40 and f(4) = 320. Find the value of f(8).

Model the following data with a logarithmic function: Use this function to determine the value of f(10).

A logistic function has an initial value of 15, a limiting value of 35, and (assuming lack of constraints) a constant growth rate of 2%. Determine its equation. Keep in mind: b = K/N(0) – 1 and r = ln(growth factor).

A logistic function has an initial value of 14, a limiting value of 38, and (assuming lack of constraints) a constant growth rate of 2%. Determine its equation. Determine when and for what value the function will obtain it maximum growth yield.

A line has a slope of 12 and passes through the point (4,5) and (k, 197). Determine the value of k.