Mathematical Investigations III Name
Mathematical Investigations III
Trigonometry- Modeling the Seas
HANDS-ON GRAPHING EXPERIENCETHE SINE CURVE
Materials:
A circle with radius of 1 decimeter (a unit circle) and center marked by the intersection of two perpendicular diameters (one black and the other red), two lengths (about 65 cm each) of string or cord that will not stretch, 5 pieces of computer paper (not separated), and a straight edge (for drawing axes).
Directions:
1. Create The Graph.
Working with a partner, draw perpendicular axes centered in the middle of the five sheets of computer paper. Label the longer axis that crosses all five sheets of paper the x-axis and the shorter one the y-axis.
The right-hand endpoint of the black diameter of the circle should be labeled A. Using the string, one member of the team measures an arbitrary length around the circumference of the circle in a counterclockwise direction beginning at point A. The second member of the team measures using the string from the point on the circumference where person #1 stopped straight down to the horizontal (black) diameter (i.e. measure the vertical distance from the endpoint of the arc measurement to the axis from which the measurement started). The first person might wish to start with arcs less than 90o.
string
(#1)
measure height with string
(#2)
DO NOT MAKE ANY MARKS ON THE STRING OR CIRCLES. THESE NEED TO BE USED FOR MANY CLASSES.
With each partner holding their respective measured length on the strings, partner #1 marks off her measurement on the computer paper along the positive x-axis beginning at the origin. Partner #2 marks off his measurement straight up from partner #1's mark. Thus, the first point on the graph should have an x-coordinate equal to the length of partner #1's measurement and a y-coordinate equal to the length of partner #2's measurement. If the initial measurement was less than 90o, the point should fall in the first quadrant.
put dot here!
string #2
string #1
NOTES: If the partner #1 measures in a counterclockwise direction from point A, then partner #1 measures in a positive direction along the x-axis. If partner #1 measures in a clockwise direction from point A, then partner #1 measures in a negative direction along the x-axis. If the end of the arc falls above the black diameter, then partner #2 measures in a positive direction parallel to the y-axis. If the end of the arc falls below the black diameter then partner #2 measures in a negative direction parallel to the y-axis.
Repeat this process many times to generate more points of the graph in all quadrants. Then sketch in the graph by joining points to make a nice smooth curve.
2. Find Points On The Graph.
Consider how the curve was created and how each point was plotted. Use that information to find and label the exact coordinates of as many points of the graph as you can. You should be able to find the coordinates of more than 30 points. By the end of the class period, you should have your graph sketched and a few points (in addition to the maxima minima, and zeros) labeled.
3. Analyze the Graph.
With your partner, write out a complete analysis of the graph you generated with the strings and disk. Be sure to address the following:
Domain & Range Intercepts
Max. points and min. points Symmetries (both line and point)
Asymptotes, if any Coordinates of other spec. points.
HANDS-ON GRAPHING EXPERIENCECOSINE CURVE
Materials: A circle with radius of 1 decimeter (a unit circle) and center marked by the intersection of two perpendicular diameters, two lengths of string or cord that will not stretch, 5 pieces of computer paper (not separated), a straight edge.
Directions: Repeat the previous exploration with the following change.
Partner #2 measures the distance from the end of the arc horizontally across to the vertical (red) diameter, instead of straight down to the horizontal (black) diameter. For the purposes of direction, if the end of the arc lies to the right of the red diameter, then partner #2's distance is considered positive. If the end of the arc lies to the left of the red diameter, then partner #2's distance is considered negative.
string #1
string #2
put dot here!
string #2
string #1
As with the previous exploration, repeat the process many times to generate points in all quadrants and a sufficient number of points to generate a smooth curve.
Considering how the curve was created, find and label the coordinates of as many points of the graph as you can. Give exact coordinates.
Summary: Write a short paragraph describing the curve. How do these curves differ from the previous curves we have discussed in this class (exponential, logarithmic, polynomial)? What special characteristics do these curves have? What about maximum points, minimum points, zeros? What types of symmetry exists?
Trig. 1.XXX Rev. F10