Calculate the following integrals. ∫ √(4 – x) dx
> Suppose that the interval 0 ≤ x ≤ 1 is divided into 100 subintervals with a width of Δx = .01. Show that the sum [3e-0.01] Δx + [3e-0.02] Δx + [3e-0.03] Δx + … + [3e-1] Δx is close to 3(1 - e-1).
> Find the value of k that makes the antidifferentiation formula true. ∫7/(8 - x)4 dx = k/(8 - x)3 + C
> Find the average value of f (x) = 1/x3 from x = 1/3 to x = 1/2.
> Three thousand dollars is deposited in the bank at 4% interest compounded continuously. What will be the average value of the money in the account during the next 10 years?
> Find the consumers’ surplus for the demand curve p = √(25 - .04x) at the sales level x = 400.
> Use a Riemann sum with n = 5 and midpoints to estimate the area under the graph of f (x) = e2x on the interval 0 ≤ x ≤ 1. Then, use a definite integral to find the exact value of the area to five decimal places.
> Use a Riemann sum with n = 2 and midpoints to estimate the area under the graph of f (x) = 1/(x + 2) on the interval 0 ≤ x ≤ 2. Then, use a definite integral to find the exact value of the area to five decimal places.
> Redo Exercise 47 using right endpoints. Exercise 47: Use a Riemann sum with n = 4 and left endpoints to estimate the area under the graph in Fig. 1 for 0 ≤ x ≤ 2. Figure 1: 20 10 ม 0 (.5, 14) .5 (1, 10) 1 (1.
> Use a Riemann sum with n = 4 and left endpoints to estimate the area under the graph in Fig. 1 for 0 ≤ x ≤ 2. Figure 1: 20 10 ม 0 (.5, 14) .5 (1, 10) 1 (1.5, 6) 1.5 (2,4) 2
> A rock thrown straight up into the air has a velocity of υ(t) = -9.8t + 20 meters per second after t seconds. (a) Determine the distance the rock travels during the first 2 seconds. (b) Represent the answer to part (a) as an area.
> A drug is injected into a patient at the rate of f (t) cubic centimeters per minute at time t. What does the area under the graph of y = f (t) from t = 0 to t = 4 represent?
> If the marginal revenue function for a company is 400 - 3x2, find the additional revenue received from doubling production if 10 units are currently being produced.
> Find the value of k that makes the antidifferentiation formula true. ∫ (4 - x)-1 dx = k ln |4 – x| + C
> An airplane tire plant finds that its marginal cost of producing tires is .04x + $150 at a production level of x tires per day. If fixed costs are $500 per day, find the cost of producing x tires per day.
> Let k be a constant, and let y = f (t) be a function such that y ’ = kty. Show that y = Cekt2/2, for some constant C.
> Describe all solutions of the following differential equations, where y represents a function of t. (a) y ’ = 4t (b) y ’ = 4y (c) y ’ = e4t
> Find the function f (x) for which f ‘(x) = e-5x, f (0) = 1.
> Find the function f (x) for which f ‘ (x) = (x - 5)2, f (8) = 2.
> Find the area of the region between the curves y = 2x2 + x and y = x2 + 2 from x = 0 to x = 2.
> Find the area of the region bounded by the curves y = x3 - 3x + 1 and y = x + 1.
> Find the area of the shaded region. -2 ม y = 2 – 2 – in 3
> Find the area of the shaded region. Y 0 y=e² - ex 1
> Find the area of the shaded region. Y 0 1/2 y=x²-x-1 y = 1-1/x 1 2
> Find the value of k that makes the antidifferentiation formula true. ∫√(x + 1) dx = k(x + 1)3/2 + C
> Find all antiderivatives of each following function: f (x) = e3x
> Find the area of the shaded region. 4 0 y=4-2² 1 y=1-x² 2
> Find the area of the shaded region. 1.21 3 = fi X} = f 0 "
> Find the area of the shaded region. y=e-z Y 0 1 y=e² In 2 1
> Find the area of the shaded region. -2 =R Y 0 y = x³ + 2x 2
> Find the area of the shaded region. x x=k xt = f 0 fi
> Find the area under the curve y = 1 + √x from x = 1 to x = 9.
> Find the area under the curve y = (3x - 2)-3 from x = 1 to x = 2.
> Calculate the following integrals. 0∫1 (3 + e2x)/ex dx
> Calculate the following integrals. 0∫ln 3 (ex + e-x)/ e2x dx
> Calculate the following integrals. ln 2∫ln 3 (ex + e-x) dx
> Find the value of k that makes the antidifferentiation formula true. ∫ (5x - 7)-2 dx = k(5x - 7)-1 + C
> Calculate the following integrals. 0∫ln 2 (ex - e-x) dx
> Calculate the following integrals. -2∫2 3/2e3x dx
> Calculate the following integrals. 0∫5 (5 + 3x)-1 dx
> Calculate the following integrals. 3∫6 e2-(x/3) dx
> Calculate the following integrals. 1∫4 1/x2 dx
> Calculate the following integrals. 2/3 0∫8 √ (x + 1) dx
> Calculate the following integrals. 1∫24/x5 dx
> Calculate the following integrals. 0∫1 [2/(x + 1) – 1/(x + 4)] dx
> Calculate the following integrals. -1∫2 √ (2x + 4) dx
> Calculate the following integrals. 0∫1/8 5√x dx
> Find the value of k that makes the antidifferentiation formula true. ∫4 e3x+1 dx = k e3x+1 + C
> Calculate the following integrals. -1∫1 (x + 1)2 dx
> Calculate the following integrals. ∫ (5/x – x/5) dx
> Calculate the following integrals. ∫ (2x + 3)7 dx
> Calculate the following integrals. ∫ (3x4 - 4x3) dx
> Calculate the following integrals. ∫5/√(x – 7) dx
> Calculate the following integrals. ∫ e-x/2 dx
> Calculate the following integrals. ∫ 5√(x + 3) dx
> What is a Riemann sum?
> In the formula Δx = (b – a)/n, what do a, b, n, and Δx denote?
> Find the value of k that makes the antidifferentiation formula true. ∫2e4x-1 dx = ke4x-1 + C
> State the formula for 1h(x)dx for each of the following functions. (a) h(x)xr, r ≠ -1 (b) h(x) = ekx (c) h(x) = 1/x (d) h(x) = f (x) + g(x) (e) h(x) = kf (x)
> What does it mean to anti-differentiate a function?
> State the formula for each of the following quantities: (a) average value of a function (b) consumers’ surplus (c) future value of an income stream (d) volume of a solid of revolution
> Outline a procedure for finding the area of a region bounded by two curves.
> How is F (x) |ba calculated, and what is it called?
> State the fundamental theorem of calculus.
> What is the difference between a definite integral and an indefinite integral?
> What is a definite integral?
> Give an interpretation of the area under a rate of change function. Give a concrete example.
> Determine the average value of f (x) over the interval from x = a to x = b, where f (x) = 100e-0.5x; a = 0, b = 4.
> Find the value of k that makes the antidifferentiation formula true. ∫3et/10 dt = ket/10 + C
> Determine the average value of f (x) over the interval from x = a to x = b, where f (x) = 1 - x; a = -1, b = 1.
> Determine the average value of f (x) over the interval from x = a to x = b, where f (x) = x2; a = 0, b = 3.
> The following exercises ask for an unknown quantity x. After setting up the appropriate formula involving a definite integral, use the fundamental theorem to evaluate the definite integral as an expression in x. Because the resulting equation will be too
> The following exercises ask for an unknown quantity x. After setting up the appropriate formula involving a definite integral, use the fundamental theorem to evaluate the definite integral as an expression in x. Because the resulting equation will be too
> The following exercises ask for an unknown quantity x. After setting up the appropriate formula involving a definite integral, use the fundamental theorem to evaluate the definite integral as an expression in x. Because the resulting equation will be too
> The following exercises ask for an unknown quantity x. After setting up the appropriate formula involving a definite integral, use the fundamental theorem to evaluate the definite integral as an expression in x. Because the resulting equation will be too
> For the Riemann sum on an interval [a, b], determine n, b, and f (x). Suppose that the interval 0 ≤ x ≤ 1 is divided into 100 subintervals of width Δx = .01. Show that the following sum is close to 5/4. [2(.01) + (.01)3]Δx + [2(.02) + (.02)3] Δx + … + [2
> For the Riemann sum on an interval [a, b], determine n, b, and f (x). Suppose that the interval 0 ≤ x ≤ 3 is divided into 100 subintervals of width Δx = .03. Let x1, x2, … , x100 be points in these subintervals. Suppose that in a particular application w
> For the Riemann sum on an interval [a, b], determine n, b, and f (x). [3(.3)2 + 3(.9)2 + 3(1.5)2 + 3(2.1)2 + 3(2.7)2] (.6); a = 0
> For the Riemann sum on an interval [a, b], determine n, b, and f (x). [(5 + e5) + (6 + e6) + (7 + e7)] (1); a = 4
> Find the value of k that makes the antidifferentiation formula true. ∫5e-2t dt = ke-2t + C
> For the Riemann sum on an interval [a, b], determine n, b, and f (x). [3/1 + 3/1.5 + 3/2 + 3/2.5 + 3/3 + 3/3.5] (.5); a = 1
> For the Riemann sum on an interval [a, b], determine n, b, and f (x). [(8.25)3 + (8.75)3 + (9.25)3 + (9.75)3](.5); a = 8
> Find the volume of the solid of revolution generated by revolving about the x-axis the region under each of the following curves. y = e-x from x = 0 to x = 1
> Find the volume of the solid of revolution generated by revolving about the x-axis the region under each of the following curves. y = 2x + 1 from x = 0 to x = 1 (The solid generated is called a truncated cone.)
> Find the volume of the solid of revolution generated by revolving about the x-axis the region under each of the following curves. y = 2x - x2 from x = 0 to x = 2
> Find the volume of the solid of revolution generated by revolving about the x-axis the region under each of the following curves. y = √x from x = 0 to x = 4 (The solid generated is called a paraboloid.)
> Find the volume of the solid of revolution generated by revolving about the x-axis the region under each of the following curves. y = kx from x = 0 to x = h (generates a cone)
> Find the volume of the solid of revolution generated by revolving about the x-axis the region under each of the following curves. y = x2 from x = 1 to x = 2
> Find the volume of the solid of revolution generated by revolving about the x-axis the region under each of the following curves. y = √ (r2 - x2) from x = -r to x = r (generates a sphere of radius r)
> Find the volume of the solid of revolution generated by revolving about the x-axis the region under each of the following curves. y = √ (4 - x2) from x = -2 to x = 2 (generates a sphere of radius 2)
> Determine the following: ∫ (-3e-x + 2x - e0.5x/2) dx
> Find the volume of the solid of revolution generated by revolving about the x-axis the region under each of the following curves. y = -x2 + 1 from x = 0 to x = 1.
> Find the volume of the solid of revolution generated by revolving about the x-axis the region under each of the following curves. y = x + 1 from x = 0 to x = 2.
> A savings account pays 4.25% interest compounded continuously. At what rate per year must money be deposited steadily in the account to accumulate a balance of $100,000 after 10 years?
> An investment pays 10% interest compounded continuously. If money is invested steadily so that $5000 is deposited each year, how much time is required until the value of the investment reaches $140,000?
> Suppose that money is deposited steadily in a savings account so that $14,000 is deposited each year. Determine the balance at the end of 6 years if the account pays 4.5% interest compounded continuously.
> Suppose that money is deposited steadily in a savings account so that $16,000 is deposited each year. Determine the balance at the end of 4 years if the account pays 8% interest compounded continuously.
> Suppose that money is deposited daily in a savings account at an annual rate of $2000. If the account pays 6% interest compounded continuously, approximately how much will be in the account at the end of 2 years?
> Suppose that money is deposited daily in a savings account at an annual rate of $1000. If the account pays 5% interest compounded continuously, estimate the balance in the account at the end of 3 years.
> For a particular commodity, the quantity produced and the unit price are given by the coordinates of the point where the supply and demand curves intersect. For the pair of supply and demand curves, determine the point of intersection (A, B) and the cons
> For a particular commodity, the quantity produced and the unit price are given by the coordinates of the point where the supply and demand curves intersect. For the pair of supply and demand curves, determine the point of intersection (A, B) and the cons
