#$&* course Mth 1585 11/4 3:45 pm If your solution to stated problem does not match the given solution, you should self-critique per instructions at http://vhcc2.vhcc.edu/dsmith/geninfo/labrynth_created_fall_05/levl1_22/levl2_81/file3_259.htm.
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Given Solution: * * There are three points: The point symmetric to (-1, -1) with respect to the x axis is (-1 , 1). The point symmetric to (-1, -1) with respect to the y axis is y axis (1, -1) The point symmetric to (-1, -1) with respect to the origin is ( 1,1). ** &&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&& Self-critique (if necessary): OK ------------------------------------------------ Self-critique Rating: 3 ********************************************* Question: * 2.2.43 / 19 (was 2.2.15). Parabola vertex origin opens to left. **** Give the intercepts of the graph and tell whether the graph is symmetric to the x axis, to the y axis and to the origin. Explain how you determined the answer to each question. YYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYY Your solution: The graph intercepts at point (0,0). Also the graph is symmetric to the x axis, because if you were to fold the parabola over it would be the same for both. confidence rating #$&*: 3 ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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Given Solution: * * The graph intercepts both axes at the same point, (0,0) The graph is symmetric to the x-axis, with every point above the x axis mirrored by its 'reflection' below the x axis. ** &&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&& Self-critique (if necessary): OK ------------------------------------------------ Self-critique Rating: 3 ********************************************* Question: * 2.2.48 / 24 (was 2.2.20). basic cubic poly arb vert stretch **** Give the intercepts of the graph and tell whether the graph is symmetric to the x axis, to the y axis and to the origin. Explain how you determined the answer to each question. This graph intercepts at (0,0). Because that it the only place that it actually touches both x and y at the same time. Therefore the graph would be considered symmetric to the origin due to this fact. The graph s strictly increasing except perhaps at the origin where it might level off for just an instant, in which case the only intercept is at the origin (0, 0). The graph is symmetric with respect to the origin, since for every x we have f(-x) = - f(x). For example, f(2) = 8 and f(- 2) = -8. It looks like f(1) = 1 and f(-1) = -1. Whatever number you choose for x, f(-x) = - f(x). &&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&& Self-critique (if necessary): OK ------------------------------------------------ Self-critique Rating: 3 ********************************************* Question: * 2.2.62 / 40 (was 2.2.36). 4x^2 + y^2 = 4 **** List the intercepts and explain how you made each test for symmetry, and the results of your tests. YYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYY Your solution: 4x^2 + y^2 = 4 For the x intercept I let y=0 4x^2 + 0^2 = 4 4x^2 = 4 divide both sides by 4 x^2 = 1 x = 1 Therefore the x intercepts are (1,0) & (0,-1) For the y intercept I let x=0 4(0)^2 + y^2 = 4 y^2 = 4 square both sides y = 2 Therefore the y intercepts are (0,2) & (-2, 0) Next I will check for symmetry. To check for x symmetry I had to substitute -x for x in the equation. After doing that I find that there is not a change in the original equation. therefore we do have x symmetry. To check for y symmetry I had to substitute -y for y in the equation. After doing that I fidn that there is not a change in the original equation. Therefore we do have y symmetry. To check for origin symmetry I had to substite -x & -y for the x & y in the equation. After doing that I find that there is not a change in the original equation. Therefore we do have origin symmetry. confidence rating #$&*: 3 ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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Given Solution: * * Starting with 4x^2 +y^2 = 1 we find the x intercept by letting y = 0. We get 4x^2 + 0 = 1 so 4x^2 = 1 and x^2=1/4 . Therefore x=1/2 or -1/2 and the x intercepts are (1/2,0) and ( -1/2,0). Starting with 4x^2 +y^2 = 1 we find the y intercept by letting x = 0. We get 0 +y^2 = 1 so y^2 = 1 and y= 1 or -1, giving us y intercepts (0,1) and (0,-1). To test for symmetry about the y axis we substitute -x for x. If there's no change in the equation then the graph will be symmetric to about the y axis. Substituting we get 4 (-x)^2 + y^2 = 1. SInce (-x)^2 = x^2 the result is 4 x^2 + y^2 = 1. This is identical to the original equation so we do have symmetry about the y axis. To test for symmetry about the x axis we substitute -y for y. If there's no change in the equation then the graph will be symmetric to about the x axis. Substituting we get 4 (x)^2 + (-y)^2 = 1. SInce (-y)^2 = y^2 the result is 4 x^2 + y^2 = 1. This is identical to the original equation so we do have symmetry about the x axis. To test for symmetry about the origin we substitute -x for x and -y for y. If there's no change in the equation then the graph will be symmetric to about the origin. Substituting we get 4 (-x)^2 + (-y)^2 = 1. SInce (-x)^2 = x^2 and (-y)^2 - y^2 the result is 4 x^2 + y^2 = 1. This is identical to the original equation so we do have symmetry about the origin. ** STUDENT COMMENT Ok, I see we worked the problem very closely but I’m confused on where the 4x^2 + y^2 = 4 went. INSTRUCTOR RESPONSE: If you let y = 0 the equation becomes 4 x^2 + 0^2 = 1. As you see we then solve for x to obtain the x intercepts. If you let x = 0 the equation becomes 4 * 0^2 + y^2 = 1. As you see we then solve for y to obtain the y intercepts. Symmetry about the y axis means that you find the same y values at -x as you do at x. Symmetry about the x axis means that you find the same x values at -y as you do at y. Symmetry at the origin says that if (x, y) is a point on the graph, so is (-x, -y). The given solution applies these tests. STUDENT QUESTION I was able to get the x and y axis numbers but I still can’t figure out how to substitute them in to the equations to find the symmetry and the solution confused me more. Got any suggestions??? INSTRUCTOR RESPONSE See if you can answer the following: If you replace x in the equation 4 x^2 + y^2 = 1 with -x, what is your equation? What do you get when you simplify the resulting equation? Is the resulting equation the same as the original equation, or different? If you replace y in the equation 4 x^2 + y^2 = 1 with -y, what is your equation? What do you get when you simplify the resulting equation? Is the resulting equation the same as the original equation, or different? If you replace x in the equation 4 x^2 + y^2 = 1 with -x, and replace y with -y, what is your equation? What do you get when you simplify the resulting equation? Is the resulting equation the same as the original equation, or different? &&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&& Self-critique (if necessary): Ok I understand this well. But I do believe that we worked to different problems. The original problem was 4x^2 + y^2 = 4. But it did help to see this both ways. ------------------------------------------------ Self-critique Rating: 3 ********************************************* Question: * 2.2.68 / 46 (was 2.2.42). y = (x^2-4)/(2x) **** List the intercepts and explain how you made each test for symmetry, and the results of your tests. YYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYY Your solution: The intercepts would be (0,0) Therefore there is symmetry for the origin but not for the x or the y axis. confidence rating #$&*: 3 ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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Given Solution: * * We do not have symmetry about the x or the y axis, but we do have symmetry about the origin: To test for symmetry about the y axis we substitute -x for x. If there's no change in the equation then the graph will be symmetric to about the y axis. }Substituting we get y = ( (-x)^2 - 4) / (2 * (-x) ). SInce (-x)^2 = x^2 the result is y = -(x^2 - 4) / (2 x). This is not identical to the original equation so we do not have symmetry about the y axis. To test for symmetry about the x axis we substitute -y for y. If there's no change in the equation then the graph will be symmetric to about the x axis. Substituting we get -y = (x^2-4)/(2x) , or y = -(x^2-4)/(2x). This is not identical to the original equation so we do not have symmetry about the x axis. To test for symmetry about the origin we substitute -x for x and -y for y. If there's no change in the equation then the graph will be symmetric to about the origin. Substituting we get -y = ((-x)^2-4)/(2(-x)) SInce (-x)^2 = x^2 the result is -y = -(x^2-4)/(2x), or multiplying both sides by -1, our result is y = (x^2-4)/(2x). This is identical to the original equation so we do have symmetry about the origin. ** PARTIAL STUDENT SOLUTION ((-x)^2 - 4) / (2 * (-x) ) INSTRUCTOR RESPONSE You have substituted -x for x, which is the first step in checking for symmetry about the y axis. Now simplify this expression. Is the simplified expression equal to the original expression? If so you have symmetry about the y axis. To find the x intercept, note that a point is on the x axis if and only if its y coordinate is zero. So you substitute y = 0 and solve for x. To find the y intercept, note that a point is on the y axis if and only if its x coordinate is zero. So you substitute x = 0 and solve for y. &&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&& Self-critique (if necessary): OK ------------------------------------------------ Self-critique Rating: 3 ********************************************* Question: * 2.2.68 / 46 (was 2.2.42). y = (x^2-4)/(2x) **** List the intercepts and explain how you made each test for symmetry, and the results of your tests. YYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYY Your solution: The intercepts would be (0,0) Therefore there is symmetry for the origin but not for the x or the y axis. confidence rating #$&*: 3 ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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Given Solution: * * We do not have symmetry about the x or the y axis, but we do have symmetry about the origin: To test for symmetry about the y axis we substitute -x for x. If there's no change in the equation then the graph will be symmetric to about the y axis. }Substituting we get y = ( (-x)^2 - 4) / (2 * (-x) ). SInce (-x)^2 = x^2 the result is y = -(x^2 - 4) / (2 x). This is not identical to the original equation so we do not have symmetry about the y axis. To test for symmetry about the x axis we substitute -y for y. If there's no change in the equation then the graph will be symmetric to about the x axis. Substituting we get -y = (x^2-4)/(2x) , or y = -(x^2-4)/(2x). This is not identical to the original equation so we do not have symmetry about the x axis. To test for symmetry about the origin we substitute -x for x and -y for y. If there's no change in the equation then the graph will be symmetric to about the origin. Substituting we get -y = ((-x)^2-4)/(2(-x)) SInce (-x)^2 = x^2 the result is -y = -(x^2-4)/(2x), or multiplying both sides by -1, our result is y = (x^2-4)/(2x). This is identical to the original equation so we do have symmetry about the origin. ** PARTIAL STUDENT SOLUTION ((-x)^2 - 4) / (2 * (-x) ) INSTRUCTOR RESPONSE You have substituted -x for x, which is the first step in checking for symmetry about the y axis. Now simplify this expression. Is the simplified expression equal to the original expression? If so you have symmetry about the y axis. To find the x intercept, note that a point is on the x axis if and only if its y coordinate is zero. So you substitute y = 0 and solve for x. To find the y intercept, note that a point is on the y axis if and only if its x coordinate is zero. So you substitute x = 0 and solve for y. &&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&& Self-critique (if necessary): OK ------------------------------------------------ Self-critique Rating: 3 #*&! ********************************************* Question: * 2.2.68 / 46 (was 2.2.42). y = (x^2-4)/(2x) **** List the intercepts and explain how you made each test for symmetry, and the results of your tests. YYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYY Your solution: The intercepts would be (0,0) Therefore there is symmetry for the origin but not for the x or the y axis. confidence rating #$&*: 3 ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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Given Solution: * * We do not have symmetry about the x or the y axis, but we do have symmetry about the origin: To test for symmetry about the y axis we substitute -x for x. If there's no change in the equation then the graph will be symmetric to about the y axis. }Substituting we get y = ( (-x)^2 - 4) / (2 * (-x) ). SInce (-x)^2 = x^2 the result is y = -(x^2 - 4) / (2 x). This is not identical to the original equation so we do not have symmetry about the y axis. To test for symmetry about the x axis we substitute -y for y. If there's no change in the equation then the graph will be symmetric to about the x axis. Substituting we get -y = (x^2-4)/(2x) , or y = -(x^2-4)/(2x). This is not identical to the original equation so we do not have symmetry about the x axis. To test for symmetry about the origin we substitute -x for x and -y for y. If there's no change in the equation then the graph will be symmetric to about the origin. Substituting we get -y = ((-x)^2-4)/(2(-x)) SInce (-x)^2 = x^2 the result is -y = -(x^2-4)/(2x), or multiplying both sides by -1, our result is y = (x^2-4)/(2x). This is identical to the original equation so we do have symmetry about the origin. ** PARTIAL STUDENT SOLUTION ((-x)^2 - 4) / (2 * (-x) ) INSTRUCTOR RESPONSE You have substituted -x for x, which is the first step in checking for symmetry about the y axis. Now simplify this expression. Is the simplified expression equal to the original expression? If so you have symmetry about the y axis. To find the x intercept, note that a point is on the x axis if and only if its y coordinate is zero. So you substitute y = 0 and solve for x. To find the y intercept, note that a point is on the y axis if and only if its x coordinate is zero. So you substitute x = 0 and solve for y. &&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&& Self-critique (if necessary): OK ------------------------------------------------ Self-critique Rating: 3 #*&!#*&!