2. Find the local maximums) of: f(x) = S-2017-x*)(++3)+-2)* 4+7)94-1)dt
7. (10) a) Find F(s) 1) if f) -tet [u(t)-u(t-4)] 2) iffit) d/dt [t sin (at )] u(t) (15) b) Find f(t) 1) if F(s)-10 s/[(s+1)(s+5)] 2) İfF(s) 10 (s+3)/[s2 (s+2)] 3) if F(s) - 10/(s2+s+ 1)
7. (10) a) Find F(s) 1) if f) -tet [u(t)-u(t-4)] 2) iffit) d/dt [t sin (at )] u(t) (15) b) Find f(t) 1) if F(s)-10 s/[(s+1)(s+5)] 2) İfF(s) 10 (s+3)/[s2 (s+2)] 3) if F(s) - 10/(s2+s+ 1)
7. Use information from the derivatives of f(x) to help you gra Find all local maximums and minimums. f(x)x3-9x2 +80 80 50 30 201 10 -6 30 8. For the given cost function Cox)-2-100x+10.000, find: a) The cost of production level 10 b) The marginal cost function? c) The marginal cost at production level 10 d) The production level that will minimize the cost Math 148 Business Calculus Page 3
7. Use information from the derivatives of f(x) to help...
werpoin Source) x+2 Find the linearization of f(x) = 2-S 32 dt at x = 4. 2+1 ignmer dy Plan The linearization of fix) = 2 - 5 32 2+1 dt at x = 4 is L(X) debook als for si Itimedi -chase cussion urse Tod
38-40. Assume that the fol lowing is the entire graph of fx). 38 Which of the following are local maximums for fx)? A) (-9/4, 3) E) (2, 2) 9 Which of the following are global extrema for f(x)? A) (-9/4,3 40. Which of the following are true about the second derivative of f(x)? B)f (2) 0 c)f" (-2) does not exist. D) f"(-1) = 0 E "CO)>
38-40. Assume that the fol lowing is the entire graph of fx). 38...
1 (a) Evaluate the integral sz? dx. (32-7) 5 2 7 (b)if s f(x)dx = 3 and 5 f(x)dt = 4, find S f(x)dr. 5
If f(3) = 1 * (* + 7+ 4)dt then f''(x) = Preview poo If g(u) = 22 -2, udz then g'(v) = Preview
7. Find the function f(t) that satisfies the equality f(t)dt = x-COS x + 1.
7. Find the function f(t) that satisfies the equality f(t)dt = x-COS x + 1.
17. Given that f(x) = (x + 2)(x-3)^5, f'(x) = (x-3)^4(6x + 7), and P"(x) = 10(x-3)^3(3x + 1), find the value(s) of all local extrema for f(x). 18. Find the x-values(s) of the inflection point(s) for f(x) =(x^3/3)-9x+1
Find a function f such that 5+ dt 4.x-7 – 22
Let A(x)=∫(bounds 0 to x) f(t)dt, with f(x) as in figure.
Let A(z) = J f(t) dt, with f(z) as in figure. -1 -2 A()l has a local minimum on (O A(z) has a local maximum on (0, 6) at a 6.5
Let A(z) = J f(t) dt, with f(z) as in figure. -1 -2 A()l has a local minimum on (O A(z) has a local maximum on (0, 6) at a 6.5