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Calculus Chapter 3. Derivatives. 3.1 Informal definition of derivative. 3.1 Informal definition of derivative. A derivative is a formula for the rate at which a function changes. Formal Definition of the Derivative of a function. You’ll need to “snow” this.
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Calculus Chapter 3 Derivatives
3.1 Informal definition of derivative • A derivative is a formula for the rate at which a function changes.
Formal Definitionof the Derivative of a function • f’(x)= lim f(x+h) – f(x) • h->0 h
Notation for derivative • y’ • dy/dx • df/dx • d/dx (f) • f’(x) • D (f)
Rate of change and slope Slope of a secant line See diagram
The slope of the secant line gives the change between 2 distinct points on a curve. i.e. average rate of change
Rate of change and slope-slope of the tangent line to a curvesee diagram
The slope of the tangent line gives the rate of change at that one point i.e. the instantaneous change.
Slope= y-y x-x Slope of secant line m= f ’(x) Slope of tangent line compare
Time for examples • Finding the derivative using the formal definition • This is music to my ears!
A function has a derivative at a point iff the function’s right-hand and left-hand derivatives exist and are equal.
Theorem If f (x) has a derivative at x=c,
Theorem If f (x) has a derivative at x=c, then f(x) is continuous at x=c.
3.3 Differentiation Rules • Derivative of a constant
3.3 Differentiation Rules • Derivative of a constant • Power Rule for derivatives
3.3 Differentiation Rules • Derivative of a constant • Power Rule for derivatives • Derivative of a constant multiple
3.3 Differentiation Rules • Derivative of a constant • Power Rule for derivatives • Derivative of a constant multiple • Sum and difference rules
3.3 Differentiation Rules • Derivative of a constant • Power Rule for derivatives • Derivative of a constant multiple • Sum and difference rules • Higher order derivatives
3.3 Differentiation Rules • Derivative of a constant • Power Rule for derivatives • Derivative of a constant multiple • Sum and difference rules • Higher order derivatives • Product rule
3.3 Differentiation Rules • Derivative of a constant • Power Rule for derivatives • Derivative of a constant multiple • Sum and difference rules • Higher order derivatives • Product rule • Quotient rule
3.3 Differentiation Rules • Derivative of a constant • Power Rule for derivatives • Derivative of a constant multiple • Sum and difference rules • Higher order derivatives • Product rule • Quotient rule • Negative integer power rule
3.3 Differentiation Rules • Derivative of a constant • Power Rule for derivatives • Derivative of a constant multiple • Sum and difference rules • Higher order derivatives • Product rule • Quotient rule • Negative integer power rule • Rational power rule
3.4 Definition Average velocity of a “body” moving along a line
Defintion Instantaneous Velocity is the derivative of the position function
Definition Speed The absolute value of velocity
Definition Acceleration
acceleration • Don’t drop the ball on this one.
Definition Acceleration The derivative of velocity,
Definition Acceleration The derivative of velocity, Also ,the second derivative of position
3.5 Derivatives of trig functions • Y= sin x
3.5 Derivatives of trig functions • Y= sin x • Y= cos x
3.5 Derivatives of trig functions • Y= sin x • Y= cos x • Y= tan x
3.5 Derivatives of trig functions • Y= sin x • Y= cos x • Y= tan x • Y= csc x
3.5 Derivatives of trig functions • Y= sin x • Y= cos x • Y= tan x • Y= csc x • Y= sec x
3.5 Derivatives of trig functions • Y= sin x • Y= cos x • Y= tan x • Y= csc x • Y= sec x • Y= cot x
TEST 3.1-3.5 • Formal def derivative • Rules for derivatives • Notation for derivatives • Increasing/decreasing • Eq of tangent line • Position, vel, acc • Graph of fct and der • Anything else mentioned, assigned or results of these
Whereas The slope of the secant line gives the change between 2 distinct points on a curve. i.e. average rate of change