In general, if f(x) < 0 on an interval [a, b], then the graph of flies--Select- ✓ the line segment connecting (a, f(a)) and (b, f(b)). Therefore, we have which of the following? O of* f(x) dx < Tp O O O [ f(x) dx < Tr [ f(x) dx > Tn [ f(x) dx > T₁ Since, M is the area under ---Select--- OM,> 1⁰0 OM,> [ºr(x) dx [² r(x) dx f(x) dx OMn< OM₁ < f(x) dx Thus, T < = [ºr(x) dx < Mn² to the graph of f(x), then f"(x) < 0 implies the tangent lies ---Select--- the graph. Therefore, we have which of the following?

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In general, if f(x) < 0 on an interval [a, b], then the graph of flies ---Select-- ✓the line segment connecting (a, f(a)) and (b, f(b)). Therefore, we have which of the following? O of* f(x) dx < Tn O [ f(x) dx < Tr of f(x) dx > Tn O O [ f(x) dx > Tn Since, M is the area under ---Select--- ✓to the graph of f(x), then f"(x) < 0 implies the tangent lies ---Select--- 1⁰0 Omn> OM,> [ f(x) dx < [°r(x) dx OM₁ < f(x) dx OMn< f(x) dx Thus, T< < [*r(x) dx < M₁² ✓ the graph. Therefore, we have which of the following?

Transcribed Image Text:

In general, if f(x) < 0 on an interval [a, b], then the graph of flies ---Select-- ✓the line segment connecting (a, f(a)) and (b, f(b)). Therefore, we have which of the following? O of* f(x) dx < Tn O [ f(x) dx < Tr of f(x) dx > Tn O O [ f(x) dx > Tn Since, M is the area under ---Select--- ✓to the graph of f(x), then f"(x) < 0 implies the tangent lies ---Select--- 1⁰0 Omn> OM,> [ f(x) dx < [°r(x) dx OM₁ < f(x) dx OMn< f(x) dx Thus, T< < [*r(x) dx < M₁² ✓ the graph. Therefore, we have which of the following?