(a).
To write: The height
The height
Given information:
A right circular cylinder of radius
Calculation:
Use the Pythagorean Theorem in the right triangle and calculate the height below:
Therefore, the height
(b).
To write: The volume
The volume
Given information:
A right circular cylinder of radius
Calculation:
From the part (a),
Formula used:
The volume of the cylinder is given by
Substitute
Therefore, the volume
(c).
To find: The values of
The values of
Given information:
A right circular cylinder of radius
Calculation:
From the part (b),
For the domain of the volume, substitute the square root function is greater than or equal to zero and solve for
Therefore, the values of
(d).
To sketch: The graph
The graph of the volume
Given information:
A right circular cylinder of radius
Calculation:
From the part (b),
Now, draw the graph of the volume
below
(e).
To find: The maximum volume from the graph.
The maximum volume is equal to
Given information:
A right circular cylinder of radius
Calculation:
From the part (d),
The graph of the volume is below:
From the above graph, the maximum volume is
Therefore, the maximum volume is
Chapter 1 Solutions
PRECALCULUS:...COMMON CORE ED.-W/ACCESS
- Which sign makes the statement true? 9.4 × 102 9.4 × 101arrow_forwardDO these math problems without ai, show the solutions as well. and how you solved it. and could you do it with in the time spandarrow_forwardThe Cartesian coordinates of a point are given. (a) (-8, 8) (i) Find polar coordinates (r, 0) of the point, where r > 0 and 0 ≤ 0 0 and 0 ≤ 0 < 2π. (1, 0) = (r. = ([ (ii) Find polar coordinates (r, 8) of the point, where r < 0 and 0 ≤ 0 < 2π. (5, 6) = =([arrow_forward
- The Cartesian coordinates of a point are given. (a) (4,-4) (i) Find polar coordinates (r, e) of the point, where r > 0 and 0 0 and 0 < 0 < 2π. (r, 6) = X 7 (ii) Find polar coordinates (r, 8) of the point, where r < 0 and 0 0 < 2π. (r, 0) = Xarrow_forwardr>0 (r, 0) = T 0 and one with r 0 2 (c) (9,-17) 3 (r, 8) (r, 8) r> 0 r<0 (r, 0) = (r, 8) = X X X x x Warrow_forward74. Geometry of implicit differentiation Suppose x and y are related 0. Interpret the solution of this equa- by the equation F(x, y) = tion as the set of points (x, y) that lie on the intersection of the F(x, y) with the xy-plane (z = 0). surface Z = a. Make a sketch of a surface and its intersection with the xy-plane. Give a geometric interpretation of the result that dy dx = Fx F χ y b. Explain geometrically what happens at points where F = 0. yarrow_forward
- Example 3.2. Solve the following boundary value problem by ADM (Adomian decomposition) method with the boundary conditions მი მი z- = 2x²+3 дг Əz w(x, 0) = x² - 3x, θω (x, 0) = i(2x+3). ayarrow_forward6. A particle moves according to a law of motion s(t) = t3-12t2 + 36t, where t is measured in seconds and s is in feet. (a) What is the velocity at time t? (b) What is the velocity after 3 s? (c) When is the particle at rest? (d) When is the particle moving in the positive direction? (e) What is the acceleration at time t? (f) What is the acceleration after 3 s?arrow_forwardConstruct a table and find the indicated limit. √√x+2 If h(x) = then find lim h(x). X-8 X-8 Complete the table below. X 7.9 h(x) 7.99 7.999 8.001 8.01 8.1 (Type integers or decimals rounded to four decimal places as needed.)arrow_forward
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