Question Details Secant Formula 1 [ ]

Similar documents
Question Details Secant Formula 1 [ ]

Question Details Secant Formula 1 [ ]

As in the previous problem, the height of a object thrown straight up is given by

Question Details Warmup Tangent [ ]

Due: Mon Oct :28 AM MDT. Question Instructions Read today's Notes and Learning Goals

Due: Mon Nov :31 AM MST. Question Instructions

Due: Wed Sep :30 AM MDT Question

Due: Fri Nov :31 AM MST. Question Instructions Read today's Notes and Learning Goals

Due: Wed Oct :30 AM MDT. Question Instructions Make sure you have easy access to all three of these documents.

8/6/2010 Assignment Previewer

Question Details sp15 u sub intro 1(MEV) [ ]

1 of 6 7/10/2013 8:32 PM

Question Details SCalcET [ ] Question Details SCalcET [ ] Question Details SCalcET



Question Instructions Read today's Notes and Learning Goals.

WebAssign Velocity (Section 2.1) (Homework)


An object is launched straight upward so that its height, h, is a function of time, t, with

Due: Mon Feb :00 AM MST Question Instructions

Question Details SEssCalc [ ] Question Details SEssCalc [ ] Question Details SEssCalc MI.

8/6/2010 Assignment Previewer


8/28/2017 Assignment Previewer

Name: 4 sin(2u) 4 sin(1.4)

8/6/2010 Assignment Previewer

Question Details Box Stretch 1 [ ]

1. (a) (4 points) Four students see this function: f(t) = 7 4t. Which student has written the derivative correctly? Circle the student s name.

Physics 215 Fall 2008 Exam 1 Version A (707459)

WebAssign Lesson 1-1 Basic Hw (Homework)

Question Instructions Read today's Notes and Learning Goals

Sp 14 Math 170, section 003, Spring 2014 Instructor: Shari Dorsey Current Score : / 26 Due : Wednesday, February :00 AM MST

4/16/2015 Assignment Previewer

The Princeton Review AP Calculus BC Practice Test 2

Pre-Calculus Section 12.4: Tangent Lines and Derivatives 1. Determine the interval on which the function in the graph below is decreasing.

Chapter 5: Limits and Derivatives

CALCULUS AB SUMMER ASSIGNMENT

Chapter 2 Overview: Introduction to Limits and Derivatives

Mr. Castle


AP Calculus BC Class Starter January 22, 2018

Calculus I Homework: The Tangent and Velocity Problems Page 1

Math 113 Final Exam Practice Problem Solutions. f(x) = ln x x. lim. lim. x x = lim. = lim 2

8/6/2010 Assignment Previewer

Unit #6 Basic Integration and Applications Homework Packet

Calculus 437 Semester 1 Review Chapters 1, 2, and 3 January 2016

WebAssign Lesson 4-2 Basic Hw (Homework)


Turn off all noise-making devices and all devices with an internet connection and put them away. Put away all headphones, earbuds, etc.

Average rates of change to instantaneous rates of change Math 102 Section 106

=.55 = = 5.05

Average rates of change May be used to estimate the derivative at a point

Sample Questions PREPARING FOR THE AP (AB) CALCULUS EXAMINATION. tangent line, a+h. a+h

Differential equations

Remember... Average rate of change slope of a secant (between two points)

The Princeton Review AP Calculus BC Practice Test 1

Physics 212 Spring 2009 Exam 2 Version C (832725)


The Fundamental Theorem of Calculus

Multiple Choice. Circle the best answer. No work needed. No partial credit available. is continuous.

Chapter 8: Radical Functions

Purdue University Study Guide for MA Credit Exam

AP Calculus AB Free-Response Scoring Guidelines


AP Calculus BC - Problem Solving Drill 19: Parametric Functions and Polar Functions

Calculus Jeopardy Sample

AP Physics C Summer Homework. Questions labeled in [brackets] are required only for students who have completed AP Calculus AB

Summer 2017 Session 1 Math 2410Q (Section 10) Elementary Differential Equations M-Th 4:45pm-7:00pm

Multiple Choice Review Problems

Technical Calculus I Homework. Instructions

Differential Equations Spring 2007 Assignments

Student s Printed Name:

p105 Section 2.2: Basic Differentiation Rules and Rates of Change

x 3x 1 if x 3 On problems 8 9, use the definition of continuity to find the values of k and/or m that will make the function continuous everywhere.

2.4 Rates of Change and Tangent Lines Pages 87-93

Chapter 2 Notes, Kohler & Johnson 2e

AP Calculus BC 2015 Free-Response Questions

Math 2250 Final Exam Practice Problem Solutions. f(x) = ln x x. 1 x. lim. lim. x x = lim. = lim 2

Math 112 (Calculus I) Final Exam

Remember... Average rate of change slope of a secant (between two points)

AP Calculus AB 2015 Free-Response Questions

AP Calculus AB 2017 Free-Response Solutions

DO NOT OPEN THIS BOOKLET UNTIL YOU ARE TOLD TO DO SO.

When does the function assume this value?

Math 106 Answers to Exam 3a Fall 2015

(1) Find derivatives of the following functions: (a) y = x5 + 2x + 1. Use the quotient and product rules: ( 3 x cos(x)) 2

Level 1 Calculus Final Exam Day 1 50 minutes

P (t) = rp (t) 22, 000, 000 = 20, 000, 000 e 10r = e 10r. ln( ) = 10r 10 ) 10. = r. 10 t. P (30) = 20, 000, 000 e

AP Calculus BC Fall Final Part IIa

AP Calculus AB. Free-Response Questions

2018 FREE RESPONSE QUESTION TENTATIVE SOLUTIONS

Worksheet 1. What You Need to Know About Motion Along the x-axis (Part 1)

Homework 4: Hard-Copy Homework Due Wednesday 2/17

CEE 271: Applied Mechanics II, Dynamics Lecture 1: Ch.12, Sec.1-3h

MLC Practice Final Exam. Recitation Instructor: Page Points Score Total: 200.

Calculus with the Graphing Calculator

Chapter Solving Equations by Adding, Subtracting, Multiplying, and Dividing.notebook

. CALCULUS AB. Name: Class: Date:

2. Which of the following is an equation of the line tangent to the graph of f(x) = x 4 + 2x 2 at the point where

Sample Questions, Exam 1 Math 244 Spring 2007

Transcription:

13: Derivatives (6105641) Question 1 2 3 4 5 6 7 8 9 10 11 12 13 14 Instructions Read today's Notes and Learning Goals 1. Question Details Secant Formula 1 [2852835] An object is thrown straight up. Its height is given by y(t) 100t 16t 2 with y in feet and t in seconds. Write a formula for the average velocity on the interval [1.7, x]. Enter your answer as an algebraic expression. Any decimals must be exact. You do not have to simplify. 2. Question Details Secant Table 1 [2852836] As in the previous problem, the height of an object thrown straight up is given by y(t) 100t 16t 2 with y in feet and t in seconds. Compute the average velocity on each of the intervals in the table below. Answers should HINT! The best way to do this is to plug the numbers x 1.68, 1.69, 1.71, and 1.72 into your secant slope formula from the previous problem. It's even better if you type your formula into a calculator or a spreadsheet. [1.68, 1.70] [1.69, 1.70] [1.70, 1.70] Undefined [1.70, 1.71] [1.70, 1.72] 3. Question Details Tangent from Table 1 [2852837] As in the previous problem, the height of an object is given by y(t) 100t 16t 2 with y in feet and t in seconds. Compute the velocity at the instant when t 1.70 seconds. Your answer must be accurate to one decimal place. NOTE: The most efficient solution would be to plug x 1.70 into your secant slope formula. However, it is unlikely that your formula will allow this. If you can figure out how to resolve this problem, good for you! Otherwise, just use your table of secant slopes to estimate the tangent slope. dy dt t1.7

4. Question Details Secant Formula 2 [2852838] The height of a falling object (subject to air resistance) is given by h(t) 400 39t 157e t/4 with h in meters and t in seconds. Write a formula for the average velocity on the interval [2, a]. Enter your answer as an algebraic expression. You do not have to simplify. Δh 5. Question Details Secant Table 2 [2852839] As in the previous problem, the height of a falling object is given by h(t) 400 39t 157e t/4 with h in meters and t in seconds. Compute the average velocity on each of the intervals in the table below. Answers should HINT! The best way to do this is to plug numbers into your secant slope formula from the previous problem. It's even better if you type your formula into a calculator or a spreadsheet. Δh [1.8, 2.0] [1.9, 2.0] [2.0, 2.0] Undefined [2.0, 2.1] [2.0, 2.2] 6. Question Details Tangent from Table 2 [2852840] As in the previous problem, the height of a falling object is given by h(t) 400 39t 157e t/4 with h in meters and t in seconds. Compute the velocity at the instant when t 2.0 seconds. Your answer must be accurate to one decimal place. NOTE: The best way to do this is to plug a 2 into your secant slope formula. Too bad that's impossible. You will have to use your table of secant slopes to estimate the answer. dh dt t2.0 7. Question Details Secant Formula 3 [2852841] The potential in an electric circuit oscillates according to V(t) 5 sin(3t) with V in volts and t in seconds. Write a formula for the average rate of change of V on the interval [1, u]. Enter your answer as an algebraic expression. You do not have to simplify.

8. Question Details Secant Table 3 [2852842] As in the previous problem, electric potential in a circuit is given by V(t) 5 sin(3t) with V in volts and t in seconds. Compute the average rate of change of V on each of the intervals in the table below. Answers should HINT! The best way to do this is to plug numbers into your secant slope formula from the previous problem. It's even better if you type your formula into a calculator or a spreadsheet. [0.98, 1] [0.99, 1] [1, 1] Undefined [1, 1.01] [1, 1.02] 9. Question Details Tangent from Table 3 [2852843] As in the previous problem, electric potential in a circuit is given by V(t) 5 sin(3t) with V in volts and t in seconds. Compute the rate of change of V at the instant t 1 second. Your answer must be accurate to one decimal place. NOTE: The best way to do this is to plug u 1 into your secant slope formula. Too bad that's impossible. You will have to use your table of secant slopes to estimate the answer. V '(1) 10. Question Details Secant Formula 4 [2852844] An object is thrown straight up. Its height is given by y(t) 100t 16t 2 with y in feet and t in seconds. Write a formula for the average velocity on the interval [2, 2 + h]. Enter your answer as an algebraic expression. You do not have to simplify.

11. Question Details Secant Table 4 [2852845] As in the previous problem, the height of a object thrown straight up is given by y(t) 100t 16t 2 with y in feet and t in seconds. Compute the average velocity on each of the intervals in the table below. Answers should HINT! The best way to do this is to plug the numbers h 0.02, 0.01, 0.01, and 0.02 into your secant slope formula from the previous problem. It's even better if you type your formula into a calculator or a spreadsheet. h 0.02 [1.98, 2] 0.01 [1.99, 2] 0 [2, 2] Undefined 0.01 [2, 2.01] 0.02 [2, 2.02] 12. Question Details Tangent from Table 4 [2852846] As in the previous problem, the height of an object is given by y(t) 100t 16t 2 with y in feet and t in seconds. Compute the velocity at the instant when t 2 seconds. Your answer must be accurate to one decimal place. NOTE: The most efficient solution would be to plug h 0 into your secant slope formula. However, it is unlikely that your formula will allow this. If you can figure out how to resolve this problem, good for you! Otherwise, just use your table of secant slopes to estimate the tangent slope. y '(2) 13. Question Details Secant Formula 5 [2852847] Water is draining out of a tank. The volume of water remaining in the tank is a function of time: V(t) 10 3 t with V in gallons t in minutes. Write a formula for the average rate of change of V on the interval [5, 5 + h]. Enter your answer as an algebraic expression. You do not have to simplify.

14. Question Details Tangent from Table 5 [2852848] As in the previous problem, the volume of water remaining in the tank is V(t) 10 3 t with V in gallons t in minutes. Compute the flow rate at the instant t 5 minutes. Your answer must be accurate to two decimal places. NOTE: The most efficient solution would be to plug h 0 into your secant slope formula. However, it is unlikely that your formula will allow this. If you can figure out how to resolve this problem, good for you! Otherwise, you will have to build an appropriate table of secant slopes and use it to estimate the answer. V '(5) Assignment Details Name (AID): 13: Derivatives (6105641) Submissions Allowed: 100 Category: Homework Code: Locked: No Author: Bullock, Doug ( dbullock@boisestate.edu ) Last Saved: Aug 21, 2014 06:35 PM MDT Group: BSU Calculus Randomization: Person Which graded: Last Feedback Settings Before due date Question Score Assignment Score Publish Essay Scores Question Part Score Mark Help/Hints Response Save Work After due date Question Score Assignment Score Publish Essay Scores Key Question Part Score Solution Mark Add Practice Button Help/Hints Response

2024 © sciencedocbox.com Privacy Policy | Terms of Service | Feedback