course MTH 158 I¿bˆ~©ÍŠÃ²õ“·¥‘抒»¥assignment #012
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10:22:52 1.2.5. Explain, step by step, how you solved the equation z^2 - z - 6 = 0 using factoring.
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RESPONSE --> First find number that when multiplied equals -6 and added is -1: -3 and 2 z^2 - 3z + 2z - 6 next, group and factor z ( z-3) + 2 (z-3) (z-3) (z+2) confidence assessment: 3
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10:25:11 ** STUDENT SOLUTION WITH INSTRUCTOR COMMENT: I factored this and came up with (z + 2)(z - 3) = 0 Which broke down to z + 2 = 0 and z - 3 = 0 This gave me the set {-2, 3} -2 however, doesn't check out, but only 3 does, so the solution is: z = 3 INSTRUCTOR COMMENT: It's good that you're checking out the solutions, but note that -2 also checks: (-2)^2 - (-2) - 6 = 4 + 2 - 6 = 0. **
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RESPONSE --> I forgot to factor out solutions, but I do understand this. self critique assessment: 3
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10:36:33 1.1.72. Explain, step by step, how you solved the equation x^3 + 6 x^2 - 7 x = 0 using factoring.
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RESPONSE --> First, all numbers have x in common, so pull that out of the equation x (x^2 + 6x - 7) = 0 now it can be factored: x [ x^2 + 7x - x - 7] = 0 x [x (x+7) -1(x+7)] x [(x+7) (x-1)] x=0 x+7=0 x-1=0 {-7,0,1} confidence assessment: 3
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10:41:57 1.2.20 (was 1.3.12). Explain how you solved the equation x(x+4)=12 by factoring.
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RESPONSE --> First, distribute x to the parentheses: x^2 + 4x = 12 then subtract 12 from each side x^2+4x-12=0 then factor x^2+6x-2x-12=0 x(x+6)-2(x+6)=0 x-2=0 x+6=0 {-6,2} confidence assessment: 3
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10:42:09 ** Starting with x(x+4)=12 apply the Distributive Law to the left-hand side: x^2 + 4x = 12 add -12 to both sides: x^2 + 4x -12 = 0 factor: (x - 2)(x + 6) = 0 apply the zero property: (x - 2) = 0 or (x + 6) = 0 so that x = {2 , -6} **
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RESPONSE --> ok self critique assessment: 3
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10:45:55 1.2.38 (was 1.3.18). Explain how you solved the equation x + 12/x = 7 by factoring.
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RESPONSE --> First multiply each side by x to get rid of the denominator: x^2+12=7x x^2-7x+12=0 x^2-4x-3x+12=0 x(x-4)-3(x-4) x-3=0 x-4=0 {3,4} confidence assessment: 3
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10:46:04 ** Starting with x + 12/x = 7 multiply both sides by the denominator x: x^2 + 12 = 7 x add -7x to both sides: x^2 -7x + 12 = 0 factor: (x - 3)(x - 4) = 0 apply the zero property x-3 = 0 or x-4 = 0 so that x = {3 , 4} **
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RESPONSE --> ok self critique assessment: 3
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10:50:52 1.2.32 (was 1.3.24). Explain how you solved the equation (x+2)^2 = 1 by the square root method.
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RESPONSE --> square each side: sqrt[(x+2)^2]=+/-sqrt(1) x+2= +/- 1 x+2 = 1 x+2 = -1 {-1,-3} confidence assessment: 3
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10:50:58 ** (x + 2)^2 = 1 so that x + 2 = ± sqrt(1) giving us x + 2 = 1 or x + 2 = -1 so that x = {-1, -3} **
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RESPONSE --> ok self critique assessment: 3
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11:02:19 1.2.44 (was 1.3.36). Explain how you solved the equation x^2 + 2/3 x - 1/3 = 0 by completing the square.
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RESPONSE --> I'm not sure exactly how to work this: x^2 +2/3x=1/3 x^2 +2/3x +1/9=1/3 + 1/9 (x+1/3)^2 = 4/9 sqrt[(x+1/3)^2] = +/- sqrt (4/9) x + 1/3 = +/- 2/3 x+1/3= 2/3 x+1/3=-2/3 {1/3,-1} confidence assessment: 2
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11:02:36 ** x^2 + 2/3x - 1/3 = 0. Multiply both sides by the common denominator 3 to get 3 x^2 + 2 x - 1 = 0. Factor to get (3x - 1) ( x + 1) = 0. Apply the zero property to get 3x - 1 = 0 or x + 1 = 0 so that x = 1/3 or x = -1. DER**
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RESPONSE --> ok, I guess I did know it self critique assessment: 3
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11:10:43 1.2.52 (was 1.3.42). Explain how you solved the equation x^2 + 6x + 1 = 0 using the quadratic formula.
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RESPONSE --> using the quadratic formula: [-6 +/- sqrt[6^2-4(1)(1)]]/2(1) [-6 = +/-sqrt(32)]/2 [-6+/- 2sqrt(8)]/2 x=[-6+2sqrt(8)]/2 or x=[-6-2 sqrt(8)]/2
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11:10:49 09-28-2007 11:10:49 ** Starting with x^2 + 6x + 1 = 0 we identify this as having the form a x^2 + b x + c = 0 with a = 1, b = 6 and c = 1. We plug values into quadratic formula to get x = [-6 ± sqrt(6^2 - 4 * 1 * 1) ] / 2 *1 x = [ -6 ± sqrt(36 - 4) / 2 x = { -6 ± sqrt (32) ] / 2 36 - 4 = 32, so x has 2 real solutions, x = { [-6 + sqrt(32) ] / 2 , [-6 - sqrt(32) ] / 2 } Note that sqrt(32) simplifies to sqrt(16) * sqrt(2) = 4 sqrt(2) so this solution set can be written { [-6 + 4 sqrt(2) ] / 2 , [-6 - 4 sqrt(2) ] / 2 }, and this can be simplified by dividing numerators by 2: { -3 + 2 sqrt(2), -3 - 2 sqrt(2) }. **
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11:15:30 1.2.72 (was 1.3.66). Explain how you solved the equation pi x^2 + 15 sqrt(2) x + 20 = 0 using the quadratic formula and your calculator.
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RESPONSE --> I am not sure how to work this one confidence assessment: 0
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11:15:34 09-28-2007 11:15:34 ** Applying the quadratic formula with a = pi, b = 15 sqrt(2) and c = 20 we get x = [ (-15sqrt(2)) ± sqrt ((-15sqrt(2))^2 -4(pi)(20)) ] / ( 2 pi ). (-15sqrt(2))^2 - 4(pi)(20) = 225 * 2 - 80 pi = 450 - 80 pi = 198.68 approx., so there are 2 unequal real solutions. Our expression is therefore x = [ (-15sqrt(2)) ± 198.68] / ( 2 pi ). Evaluating with a calculator we get x = { 5.62, 1.13 }. DER**
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11:19:50 1.2.98 (was 1.3.90). Explain how you set up and solved an equation for the problem. Include your equation and the reasoning you used to develop the equation. Problem (note that this statement is for instructor reference; the full statement was in your text) box vol 4 ft^3 by cutting 1 ft sq from corners of rectangle the L/W = 2/1.
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RESPONSE --> let x be the length of the side of the rectangle. (x-2)(x-2)(1)=4 distribute x^2 -4x +4 =4 x^2-4x=0 x(x-4)=0 x=0 x-4=0 {0,4} confidence assessment: 2
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11:20:11 09-28-2007 11:20:11 ** Using x for the length of the shorter side of the rectangle the 2/1 ratio tells us that the length is 2x. If we cut a 1 ft square from each corner and fold the 'tabs' up to make a rectangular box we see that the 'tabs' are each 2 ft shorter than the sides of the sheet. So the sides of the box will have lengths x - 2 and 2x - 2, with measurements in feet. The box so formed will have height 1 so its volume will be volume = ht * width * length = 1(x - 2) ( 2x - 2). If the volume is to be 4 we get the equation 1(x - 2) ( 2x - 2) = 4. Applying the distributive law to the left-hand side we get 2x^2 - 6x + 4 = 4 Divided both sides by 2 we get x^2 - 3x +2 = 2. (x - 2) (x - 1) = 2. Subtract 2 from both sides to get x^2 - 3 x = 0 the factor to get x(x-3) = 0. We conclude that x = 0 or x = 3. We check these results to see if they both make sense and find that x = 0 does not form a box, but x = 3 checks out fine. **
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11:20:46 1.2.100 (was 1.3.96). Explain how you set up and solved an equation for the problem. Include your equation and the reasoning you used to develop the equation. Problem (note that this statement is for instructor reference; the full statement was in your text) s = -4.9 t^2 + 20 t; when 15 m high, when strike ground, when is ht 100 m.
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RESPONSE --> i am not sure confidence assessment: 0
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11:20:51 09-28-2007 11:20:51 ** To find the clock time at which the object is 15 m off the ground we set the height s equal to 15 to get the equation -4.9t^2 + 20t = 15 Subtracting 15 from both sides we get -4.9t^2 +20t - 15 = 0 so that t = { -20 ± sqrt [20^2 - 4(-4.9)(-15) ] } / 2(-4.9) Numerically these simplify to t = .99 and t = 3.09. The object passes the 15 m height on the way up at t = 99 and again on the way down at t = 3.09. To find when the object strikes the ground we set s = 0 to get the equation -4.9t^2 + 20t = 0 which we solve to get t = [ -20 ± sqrt [20^2 - 4(-4.9)(0)] ] / 2(-4.9) This simplifies to t = [ -20 +-sqrt(20^2) ] / (2 * -4.9) = [-20 +- 20 ] / (-9.8). The solutions simplify to t = 0 and t = 4.1 approx. The object is at the ground at t = 0, when it starts up, and at t = 4.1 seconds, when it again strikes the ground. To find when the altitude is 100 we set s = 100 to get -4.9t^2 + 20t = 100. Subtracting 100 from both sides we obtain -4.9t^2 +20t - 100 = 0 which we solve using the quadratic formula. We get t = [ -20 ± sqrt (20^2 - 4(-4.9)(-100)) ] / 2(-4.9) The discriminant is 20^2 - 4 * -4.9 * -100, which turns out to be negative so we do not obtain a solution. We conclude that this object will not rise 100 ft. **
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11:21:44 Add comments on any surprises or insights you experienced as a result of this assignment.
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RESPONSE --> I am comfortable with the quadratic equations, the word problems are a little difficult, I will keep praticing more. confidence assessment: 3
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