Left and Right-Hand Riemann Sums Rizzi – Calc BC.

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Presentation transcript:

Left and Right-Hand Riemann Sums Rizzi – Calc BC

The Great Gorilla Jump

Left-Hand Riemann Sum

Right-Hand Riemann Sum

Over/Under Estimates

Riemann Sums Summary Way to look at accumulated rates of change over an interval Area under a velocity curve looks at how the accumulated rates of change of velocity affect position Area under an acceleration curve looks at how the accumulated rates of change of acceleration affect velocity

Practice AP Problem The rate of fuel consumption (in gallons per minute) recorded during a plane flight is given by a twice-differentiable function R of time t, in minutes. 1.Approximate the value of the total fuel consumption using a left-hand Riemann sum with the five subintervals listed in the table above. 2.Over or under estimation? Why? t (hours)R(t)

Midpoint and Trapezoidal Riemann Sums Rizzi – Calc BC

Area Under Curve Review In the gorilla problem yesterday, area under the curve referred to the total distance the gorilla fell This is an accumulated rate of change Let’s add an initial condition: The gorilla started from 150 meters. How far off the ground was he at the end of 5 seconds?

Warm Up AP Problem

Motivation Right- and left-hand Riemann sums aren’t always accurate Midpoint and Trapezoidal are more complex but can offer more accurate estimations

Midpoint Sum

Midpoint Sum – Graphical/Analytical

Practice AP Problem Estimate the distance the train traveled using a midpoint Riemann sum with 3 subintervals.

Trapezoidal Sum Area of each interval is determined by finding area of each trapezoid

Trapezoidal Sum – Graphical/Analytical

Limits of Riemann Sums As we take more and more subintervals, we get closer to the actual approximation of the area under the curve.

Limits of Riemann Sums Cont.

Midpoint Sum - Numerical t f(t)f(t)