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THEOREM 1 Net Change as the Integral of a Rate The net change in s (t) over an interval [t 1, t 2 ] is given by the integral.

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Presentation on theme: "THEOREM 1 Net Change as the Integral of a Rate The net change in s (t) over an interval [t 1, t 2 ] is given by the integral."— Presentation transcript:

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2 THEOREM 1 Net Change as the Integral of a Rate The net change in s (t) over an interval [t 1, t 2 ] is given by the integral

3 Water leaks from a tank at a rate of 2 + 5t liters/hour, where t is the number of hours after 7 AM. How much water is lost between 9 and 11 AM?

4 Traffic Flow The number of cars per hour passing an observation point along a highway is called the traffic flow rate q (t) (in cars per hour). (a) Which quantity is represented by the integral

5 Traffic Flow The number of cars per hour passing an observation point along a highway is called the traffic flow rate q (t) (in cars per hour). (b) The flow rate is recorded at 15-min intervals between 7:00 and 9:00 AM. Estimate the number of cars using the highway during this 2-hour period.

6 Let s (t) be the position at time t of an object in linear motion. Then the object’s velocity is v (t) = s (t), and the integral of v (t) is equal to the net change in position or displacement over a time interval [t 1, t 2 ]: The Integral of Velocity We must distinguish between displacement and distance traveled. If you travel 10 km and return to your starting point, your displacement is zero but your distance traveled is 20 km. To compute distance traveled rather than displacement, integrate the speed |v (t)|.distance

7 THEOREM 2 The Integral of Velocity For an object in linear motion with velocity v (t),

8 A particle has velocity v (t) = t 3 −10t 2 + 24t m/s. Compute: (a) Displacement over [0, 6]

9 A particle has velocity v (t) = t 3 −10t 2 + 24t m/s. Compute: (b) Total distance traveled over [0, 6]

10 Consider the cost function C (x) of a manufacturer (the dollar cost of producing x units of a particular product or commodity). The derivative C (x) is called the marginal cost. The cost of increasing production from a to b is the net change C (b) − C (a), which is equal to the integral of the marginal cost:derivative Total versus Marginal Cost The marginal cost of producing x computer chips (in units of 1000) is (a) Find the cost of increasing production from 10,000 to 15,000 chips.

11 Consider the cost function C (x) of a manufacturer (the dollar cost of producing x units of a particular product or commodity). The derivative C (x) is called the marginal cost. The cost of increasing production from a to b is the net change C (b) − C (a), which is equal to the integral of the marginal cost:derivative Total versus Marginal Cost The marginal cost of producing x computer chips (in units of 1000) is (b) Determine the total cost of producing 15,000 chips, assuming that it costs $30,000 to set up the manufacturing run [that is, C (0) = 30,000].

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