Download presentation
Presentation is loading. Please wait.
Published byCalvin Mitchell Modified over 9 years ago
1
Note on Information in the Equation of the Tangent Line Knowing the equation of the tangent line to the graph of f(x) at x = a is exactly the same as knowing f(a) and f ‘ (a) If we know a, f(a) and f ‘ (a) then the equation of the tangent line is: Conversely if y = m x + b is known to be the tangent line at x =a then m = f ‘(a) and f(a) = ma+b Example: If y = 3 x-7 is the equation of the tangent line to the graph of f(x) at x = 2 what are f(2) and f ‘ (2)? Ans: f ‘ (2) = slope of tan line = 3; f(2) = 3(2)-7 = -1
2
Responses to Some Questions Limits Involving infinity
3
Calculations Does Not Exist
4
Rational Functions Divide Numerator and Denominator by x^n where n is the largest degree of numerator and denominator
5
= 7 -2
6
May Have To Compute Degree Degree of numerator = 3, Degree of denominator = 2 = (3) (-1) (1) (-3) = X
7
Other possibility Degree of numerator = 2, Degree of denominator = 3 = (1)(3) (0) (3) (-1) = 0
8
General Principles If degree of numerator is larger than degree of denominator then limit as n->infinity does not exist If degree of numerator is less than degree of denominator then limit as n->infinity is 0 If degree of numerator = degree of denominator then the limit can easily be calculated by dividing both numerator and denominator by by x^n where n the highest degree.
9
Lecture 7 Derivatives as Rates
10
Average Rate of Change If f is a function of t on the interval [a,b] then the average rate of change of f on the interval [a,b] with respect to t is When the units of f(t) are distance and those of t are time the average rate of change is called the average velocity
11
Need only the values a,b, f(a), f(b) A particle moves along a line so that its distance from the origin at time 4 seconds is 9 feet and its distance from the origin at time t = 10 seconds is 2 feet. What is its average velocity over the interval [4,10]? Here a = 4 sec., f(4) = 9 ft., b = 10 sec, f(10) = 2 ft. Average velocity = (2 – 9)/(10-4) ft/sec = -7/6 ft/sec
12
Average Velocity is Slope of Secant Line
13
Motion on a Line x(-1) = 0 Suppose a particle is moving along the x- axis and its x-coordinate at time t seconds is given by feet. x(0) = -1x(1) = 0x(2) = 3x(3) = 8
14
Previous Example t in seconds, x in feet over the interval [-1,3] ft/sec = = 2 ft/sec The average velocity over the interval [-1,3] is 2 ft per second
15
What is the velocity at t = 2? Can’t calculate average velocity over interval [2,2] (dividing by 0). Can calculate average velocity over [2,2+h] The limiting average velocity as h -> o must be the “instantaneous” velocity at time t = 2.
16
Instantaneous Velocity If f(t) is the position on a line of a particle at time t then the instantaneous velocity of the particle at time t =a is Which is f ‘ (a)
17
Example A particle moves along the x-axis so that its position at time hours is miles What is its instantaneous velocity at time t = 3 hours? At what times is it moving to the left of the origin and at what times is it moving to the right?
18
solution miles/hr x ‘ is positive for t < 0 so for t < 0 the particle is moving in the positive direction which is to the right. It is negative for time t > 0 which means that for time t >0 it Is moving to the left
19
Projectile Motion After t seconds the height, in feet of a projectile fired straight upward from the ground is a. What is the (upward) velocity 3 seconds after it is fired? b. What is the (upward) velocity when it hits the ground? c. At what time does the projectile stop ascending and begin to return to Earth?
20
Solution: Let v(t) = velocity at time t. v(t) = h’ (t) = ft/sec (a)At time t = 3 the velocity is v(3) = -32*3 + 100 = 4 ft/sec (b) The projectile stops rising when its velocity is reduced to 0. That is when -32 t + 100 = 0 or when t = 100/32 sec. (c) The projectile returns to Earth when its height is 0 i.e. when 0 = 0 =( -16 t + 100) t has solutions t = 0 and t = 100/16 The time t = 0 is when it was launched, t = 100/16 is when it returned. The velocity then is v(100/16) = -100 ft/sec
21
Problem on Average Velocity A driver travels the first 40 miles of a trip to Louisville at 80 miles per hour and the remaining 30 miles at 60 miles per hour. What was her average velocity for the trip?
Similar presentations
© 2025 SlidePlayer.com. Inc.
All rights reserved.