4.2 critical points fri dec 11 do now find the derivative of each 1) 2)
TRANSCRIPT
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4.2 Critical PointsFri Dec 11
Do Now
Find the derivative of each
1)
2)
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Test Review
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Critical points
• A number a in the domain of a given function f(x) is called a critical point of f(x) if f '(a) = 0 or f ’(x) is undefined at x = a.
• To find a critical point, we find the 1st derivative and set it equal to 0
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• Example 1: Find the critical point(s) of the polynomial function f given by f(x) = x 3 - 3x + 5
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Calculator to solve equations
• 1) Graph it (y = )
• 2) 2nd -> calc -> zeros
• 3) left bound / right bound– Click to the left and right of the zero– Guess: hit enter near the zero
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Using the Solver Function
• Math -> Solver
• Rewrite the equation so it is equal to 0
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Solution
• Solution to Example 1.– The first derivative f ' is given by f
'(x) = 3 x 2 - 3– f '(x) is defined for all real numbers. Let us
now solve f '(x) = 0 • 3 x 2 - 3 = 0 = 3(x-1)(x+1) =0• x = 1 or x = -1
– Since x = 1 and x = -1 are in the domain of f they are both critical points.
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• Example 2: Find the critical point(s) of the rational function f defined by
f(x) = (x 2 + 7 ) / (x + 3)
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• Solution to Example 2.– Note that the domain of f is the set of all real
numbers except -3. – The first derivative of f is given by f
'(x) = [ 2x (x + 3) - (x 2 + 7 )(1) ] / (x + 3) 2 – Simplify to obtain f '(x) = [ x 2 + 6 x - 7 ] / (x + 3) 2 – Solving f '(x) = 0
• x 2 + 6 x - 7 = 0(x + 7)(x - 1) = 0x = -7 or x = 1 • f '(x) is undefined at x = -3 however x = -3 is not included
in the domain of f and cannot be a critical point. • The only criticalpoints of f are x = -7 and x = 1.
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• Example 3: Find the critical point(s) of function f defined by
f(x) = (x - 2) 2/3 + 3
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• Solution to Example 3.– Note that the domain of f is the set of all
real numbers. – f '(x) = (2/3)(x - 2) -1/3= 2 / [ 3(x - 2) 1/3] – f ’(x) is undefined at x = 2 and since x = 2
is in the domain of f it is a critical point.
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You try: Find the critical points
• a) f(x) = 2x 3 - 6 x - 13
• b) f(x) = (x - 3) 3 - 5
• c) f(x) = x 1/3 + 2
• d) f(x) = x / (x + 4)
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answers
• A) 1, -1
• B) 3
• C) 0
• D) none
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Closure
• Find the critical numbers of
• HW: p.222 #3-17 odds
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4.2 Extreme ValuesMon Dec 14
• Do Now
• Find the critical points of each function
• 1)
• 2)
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HW Review: p.222 #3-17 odds
• 3) x = 1• 5) x = -3, 6• 7) x = 2• 9) x = -1, 1 • 11) t = 3, -1• 13) x = -1, 0, 1, sqrt(2/3), -sqrt(2/3)• 15) npi/2• 17) x = 1/e
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Extreme Values
• Extreme values refer to the minimum or maximum value of a function
• There are two types of extreme values:– Absolute extrema: the min or max value of
the entire function– Local extrema: the min or max value of a
piece of a function
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Absolute vs Local (pics)
• Absolute extrema may or may not exist
• Local extrema always exist
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How to find absolute extrema
• 1) Find all critical points in an interval.
• 2) Test all critical points and endpoints into the original function
• 3) The biggest y is the max
The smallest y is the min
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Ex
• Find the extrema of the function on [0,6]
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Ex 2
• Find the max of the function on [-1, 2]
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Ex 3
• Find the extreme values of the function on [1, 4]
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Ex 4
• Find the min and max of the function on [0, 2pi]
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You try
• Find the extrema of the given function on the indicated interval
• 1)
• 2)
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Closure
• Find the min and max of the function on given interval
• HW: p.223 #1 21 29-41 47 51 55 odds
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4.2 Rolle’s TheoremTues Dec 15
• Do Now
• Find any critical points for each function
• 1)
• 2)
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HW Review: p.222 #1 21 29-41 47 51 55
• 1) a) 3 b) 6 c) max at 5 d) varies• 21) a) c = 2b) f(0)=f(4)=1
c) max: 1, min: -3 d) max: 1, min: -2• 29) min: (-1, 3), max: (2, 21)• 31) min: (0,0) max: (3, 9)• 33) min: (4, -24) max: (6, 8)• 35) min: (1, 5) max: (2, 28)• 37) min: (2, -128)max: (-2, 128)
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39 41 47 51 55
• 39) min: (6, 18.5)max: (5, 26)• 41) min: (1, -1) max: (0,0) (3, 0)• 47) min: (0,0) (pi/2, 0) max: (pi/4, 1/2)• 51) min: (pi/3, -.685) max: (5pi/3, 6.968• 55) min: (1,0) max: (e, .368)
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Rolle’s Theorem
• Assume that f(x) is continuous on [a,b] and differentiable on (a,b). If f(a) = f(b), then there exists a number c between a and b such that f’(c) = 0
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Ex
• Verify Rolle’s Theorem on [-2, 2]
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Practice
• Green book worksheet p.268 #33-41
• 1) Critical points– Differentiate and solve = 0
• 2) Test endpoints and c.p. into original function
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Closure
• What is a critical point? How can you tell if a critical point is a local max or min?
• HW: worksheet p.268 #33-41