MATH 255 Applied Honors Calculus III Winter Homework 1. Table 1: 11.1:8 t x y
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1 MATH 255 Applied Honors Calculus III Winter 2 Homework Section., pg. 692: 8, 24, 43. Section.2, pg. 72:, 2 (no graph required), 32, 4. Section.3, pg. 73: 4, 2, 54, 8. Section.4, pg. 79: 6, 35, 46. Solutions.: #8 a) First generate a table of values: Then plot the values (see Figure ). Table :.:8 t x y Figure : Parametric plot for. #8. b) Solve x + 3t for t, t x, and plug into y 2 3 t2. You get the Cartesian equation y 7 x2 + 2x
2 .: #24 a - III : x ranges from to 2 b - I : x changes directions 4 times; 6 changes directions 6 times c - IV : y is always positive d - II : y is almost constant for a span, and x is as well..: #43 a) This is easiest if you first plot all the functions against t (see fig 2). Figure 2: Graph of parametric equations vs t for. #43. Dashed st particle, Solid 2nd particle, thickx, thiny. Now we transfer this information to the to the Cartesian plane for the plot of the particle trajectories (see fig 3). We could note from experience that the first particle traces an ellipse centered at the origin, and the second traces a circle of radius centered at ( 3, ). b) We see two spots where the trajectories cross, but these are only collisions if the x coordinates intersect at the same time the y coordinates do. Looking again at the first plot, we see that this happens only for t 3π, which corresponds to the Cartesian point ( 3, ). 2 c) The second particle is shifted 6 units to the right. There are still two intersection points, but no collision points. Replot the parametric equations to verify.
3 Figure 3: Parametric plot for. #43. There are two intersections, which are potential collision points.
4 .2: # cos(t) cos(t + sin(t)) ( + cos(t)) cos(t+sin(t)) (+cos(t)) cos(t) Now find the values of t for which x and y : First x sin t implies t and π in one cycle. As for y sin(t + sin(t)), it is hard to find the root, so we test the values from above: and π, and we find both values work. So t, π in one cycle. Therefore, (x, y) (, ) when t, π. Plug these values into the equation for the tangent and get 2 when t, and when t π. This can be clearly seen from Fig. 4. Figure 4: Graph of parametric curve (sin(t), sin(t + sin(t))) for.2 #..2: #2 We have / / 2 cosθ 3 sin 3θ. Let s check for which values of θ the numerator vanishes. Clearly, in one periodic cycle, we have 2 cosθ if θ π/2, 3π/2. What about the denominator? We have 3 sin 3θ implies 3θ, π in one cycle, so 3θ kπ for any integer k, so θ kπ. 3 Therefore in one cycle, the denominator vanishes for θ, π/3, 2π/3, π, 4π/3, 5π/3, six values
5 in one cycle. Notice the roots for do not overlap. When the tangent is horizontal,, i.e. when, but, then we get θ π/2, 3π/2 in one cycle. These correspond to the Cartesian points (, 2) and (, 2). When it is vertical, goes to infinity, i.e. when, but, we get θ and, π/3, 2π/3, π, 4π/3, 5π/3 in one cycle. These correspond to the Cartesian points (, ), (, 3), (, 3), (, ), (, 3), (, 3), respectively. Figure 5: Graph of parametric curve (cos(3t), 2 sin(t)) for.2 #2..2: #32 Set t + /t 2.5 to obtain t.5 and t 2 2, plug them into x t /t to get x.5 and x 2.5. the area bounded can be calculated by: 2 2 ( A (2.5 y(t))x (t) 2.5 t ) ( + t ).5.5 t 2 2 ( 2.5 t 2 t t ) 2 t 3.2: #4 /t 2 t+.5 ( 2.5t t2 2 2 ln t 2.5 t + 2t 2 ) ln2 9.8.
6 L b a L /t 2 + 4(t+).3: #4 Start with the definition of distance in Cartesian coordinates: D (x x 2 ) 2 + (y y 2 ) 2 Make the substitutions for x r cos θ and y r sin θ and distribute. D (r cos θ r 2 cos θ 2 ) 2 + (r sin θ r 2 sin θ 2 ) 2 D r 2 cos 2 θ + r2 2 cos 2 θ 2 2r r 2 cosθ cosθ 2 + r 2 sin 2 θ + r2 2 sin 2 θ 2 2r r 2 sin θ sin θ 2 D r 2(cos2 θ + sin 2 θ ) + r2 2(cos2 θ 2 + sin 2 θ 2 ) 2r r 2 cosθ cosθ 2 2r r 2 sin θ sin θ 2 Finally, use the sum-angle identity cos(θ θ 2 ) cosθ cosθ 2 + sin θ sin θ 2. D r 2 + r2 2 2r r 2 cos(θ θ 2 )..3: #2 r tanθ sec θ r sinθ cos 2 θ r cosθ tanθ x y x y x 2..3: #54 (a): VI, In general, there are 2 points on the curve for each angle θ. (b): III, In general, there are 2 points on the curve for each angle θ. (c): IV, r is infinite for θ ± π 6, ±π 2, ±5π 6. (d): V, r is an even function of θ thus the graph is symmetric about x-axis. Furthermore, the graph is unbounded. (e): II, r is maximal when θ, ± π 5, ±2π 5. (f): I, r becomes smaller and smaller number as θ increases from..3: #8 The slope of the tangent is given by: tanφ dr sin θ + r cosθ dr cos θ r sin θ sin θ + r/r cosθ cos θ r/r sin θ tanθ + r/r r/r tanθ.
7 using the notation r dr. Since ψ φ θ, tan ψ tan(φ θ), tan ψ tanφ tanθ + tanφ tan θ tan θ+r/r r/r tan θ tanθ + tanθ tan θ+r/r r/r tan θ Consider just the numerator of this expression: combine the two terms by finding a common denominator. Do this for the fraction in the denominator as well. tanψ tanθ + r/r tanθ r/r tan 2 θ r/r tan θ + tan 2 θ + r/r tanθ r/r + tan2 θ + tan 2 θ r r.
8 .4: #6 A 2 π π/2( + sin θ) π π/2 π π/ π 4. ( + 2 sin θ + sin 2 θ) ( + 2 sin θ + 2 cos(2θ) ) 2.4: #8.4: #35 A 2 b a π/4 π/6. r sin(4θ) 2 r2 2 sin2 (4θ)d theta [ θ/2 6 sin(8θ) ] π/4 r /2 + cosθ The first step is to find the endpoints for the two regions; that is, solve r. cosθ /2 θ ± 2π 3 + 2nπ By examination, we find the larger region is given by 2π θ 2π, and the smaller region 3 3 by 2π θ 4π. 3 3 Inner Region 4π/3 A inner 2 (/2 + cos θ)2 Outer Region A outer 2π/3 /8 [3θ + 4 sin θ + sin 2θ] 4π/3 2π/3 /8(2π 3 3) 2π/3 2π/3 2 (/2 + cosθ)2 /8 [3θ + 4 sin θ + sin 2θ] 2π/3 2π/3 /8(4π + 3 3) Thus the area in between is the difference A A outer A inner /8(2π + 6 3).
9 .4: #46 r e 2θ dr 2e2θ L 2π 2π 5 r 2 + ( dr )2 e 4θ + 4e 4θ 2π e 2θ 5/2 [ e 2θ] 2π 5/2[e 4π ].4: #55 a. Start with the parametric equation for the surface area of a revolution around the x-axis. Also note that the polar axis (θ ) in polar coordinates is the x-axis in Cartesian coordinates. b ( ) 2 ( ) 2 S 2πy + a Now make the substitutions into polar coordinates: x r cos θ and y r sin θ. Note that t is a dummy variable, we could have just called it θ. Also note that: Let s look at the quantity ( ) 2 ( + 2. ) ( ) 2 + ( dr sin θ + r cosθ dr cosθ r sin θ ( ) 2 ( ) 2 dr sin 2 θ + r 2 cos 2 θ + 2r dr cosθ sin θ ( ) 2 ( ) 2 dr cos 2 θ + r 2 sin 2 θ 2r dr cosθ sin θ ) 2 ( ) 2 dr ( cos 2 θ + sin 2 θ ) + r ( 2 cos 2 θ + sin 2 θ ) a ( ) 2 + ( ) 2 Plug in this, and y r sin θ to get b (dr ) 2 S 2πr sin θ + r 2. ( ) 2 dr + r 2
10 b. Now calculate for r cos 2θ. S π/4 π/4 π/4 π/4 dr sin 2θ cos 2θ 2π sin 2 2θ cos(2θ) sin(θ) + cos 2θ cos 2θ 2π sin 2 2θ + cos cos(2θ) sin(θ) 2 2θ cos 2θ 2π cos(2θ) sin(θ) cos 2θ 2π sin(θ) S 2π[cos(π/4) cos()] 2π( / 2).
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