Winter wk 7 – Tues.15.Feb.05 Antiderivative = integral = area under curve Derivative = slope of curve Review 6.1-2: Finding antiderivatives 6.3: Introduction to differential equations 6.4: Second fundamental theorem of calculus 6.5: Equations of motion Energy Systems, EJZ
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Winter wk 7 – Tues.15.Feb.05 Antiderivative = integral = area under curve Derivative = slope of curve Review 6.1-2: Finding antiderivatives 6.3: Introduction.
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Winter wk 7 – Tues.15.Feb.05
Antiderivative = integral = area under curve
Derivative = slope of curve
Review 6.1-2: Finding antiderivatives
6.3: Introduction to differential equations
6.4: Second fundamental theorem of calculus
6.5: Equations of motion
Energy Systems, EJZ
Review Ch.6.1-2: Antiderivatives
Recall: if F=slope=df/dx =f’, then
Given a graph of the slope F=df/dx, sketch f:• Where is slope F=0? There f is flat.
• Where is slope F>0? There f increases.
• Where is slope F<0? There f decreases.
f(x)=AREA under F(x) curve.
dfF dx dx df f
dx
Analytic antiderivativesPolynomials:
Exponential and logarithmic functions:
Trigonometric functions:
1 1( )
1 ,1
n nn nd x x
n x so x dx cdx n
1,
1 1ln , ln
axax ax axde
ae so e dx e cdx a
dx so dx x c
dx x x
1cos sin , sin cos
dax a ax so ax dx ax c
dx a
6.3 Introduction to DiffEqSpeed = rate of change of position
v = ds/dtThis is a differential equation! • Do Conceptest 1, then • solve for s if v=50
Acceleration = rate of change of speeda = dv/dt
• Solve for v and s if a = -g (gravity)• See Ex.2 and 3, then • do Conceptests 2&3.
Conceptest 1
Graphs (I)-(III) show velocity versus time for three different objects.