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Sec 5.4: INDEFINITE INTEGRALS AND THE NET CHANGE THEOREM. Indefinite Integral. Note1:. is traditionally used for an antiderivative of. Note2:. is called an indefinite integral. Example:. Sec 5.4: INDEFINITE INTEGRALS AND THE NET CHANGE THEOREM. Indefinite Integral. definite Integral.
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Sec 5.4:INDEFINITE INTEGRALS AND THE NET CHANGE THEOREM Indefinite Integral Note1: is traditionally used for an antiderivative of Note2: is called an indefinite integral Example:
Sec 5.4:INDEFINITE INTEGRALS AND THE NET CHANGE THEOREM Indefinite Integral definite Integral The connection between them
Sec 5.4:INDEFINITE INTEGRALS AND THE NET CHANGE THEOREM Table Indefinite Integrals
Sec 5.4:INDEFINITE INTEGRALS AND THE NET CHANGE THEOREM Table Indefinite Integrals
Sec 5.4:INDEFINITE INTEGRALS AND THE NET CHANGE THEOREM TERM-092 Table Indefinite Integrals
Sec 5.4:INDEFINITE INTEGRALS AND THE NET CHANGE THEOREM TERM-092 Table Indefinite Integrals
Sec 5.4:INDEFINITE INTEGRALS AND THE NET CHANGE THEOREM TERM-092 Table Indefinite Integrals Remark
Sec 5.4:INDEFINITE INTEGRALS AND THE NET CHANGE THEOREM TERM-092 Table Indefinite Integrals
Sec 5.4:INDEFINITE INTEGRALS AND THE NET CHANGE THEOREM TERM-082 Table Indefinite Integrals
Sec 5.4:INDEFINITE INTEGRALS AND THE NET CHANGE THEOREM TERM-082 Table Indefinite Integrals
Sec 5.4:INDEFINITE INTEGRALS AND THE NET CHANGE THEOREM Table Indefinite Integrals
Sec 5.4: THE NET CHANGE THEOREM
Sec 5.4:INDEFINITE INTEGRALS AND THE NET CHANGE THEOREM Example1:
Sec 5.4:INDEFINITE INTEGRALS AND THE NET CHANGE THEOREM Motion Along a Line: Displacement Suppose that an object is moving along a coordinate line, usually horizontal or vertical, so that we know its position s on that line as a function of time t: Example1: If at time t, the position of a body moving along the s- axis is net change of position, or displacement = total distance traveled = Example2: If at time t, the velocit of a body moving along the s- axis is net change of position, or displacement during the period [t1, t2] is total distance traveled during the period [t1, t2] is
Sec 5.4:INDEFINITE INTEGRALS AND THE NET CHANGE THEOREM displacement If an object moves along a straight line with position function , then its velocity is the net change of position, or displacement, total distance total distance traveled
Sec 5.4:INDEFINITE INTEGRALS AND THE NET CHANGE THEOREM displacement If an object moves along a straight line with position function , then its velocity is the net change of position, or displacement, totaldistance total distance traveled
Sec 5.4:INDEFINITE INTEGRALS AND THE NET CHANGE THEOREM THE NET CHANGE THEOREM represents the rate of change of represents the net change in