1. The graph of a tangent function is given below. Find the equation of the graph in the form y = A tan
(Bx C). Y=tan(x+
)
2
a. Find the value of A. The y-coordinate of the points on the graph and of the way
between the consecutive asymptotes are given by

Yashira Franqui
MA1310
MA1310: Module 1 Sequences Lab 1.1 Sequences and Notations
1. The sequence shown below is defined using a recursion formula. Write the first four terms of
the sequence.
a1 = 13 and an = an1 + 8 for n 2
a1 = 13
a2 = a21 + 8 = a1 + 8

Yashira Franqui
MA 1310
Exercise 2
1. The formula S = C(1 + r)t models inflation, where
C = The value of today
r = The annual inflation rate
S = The inflated value t years from now
Use this formula to solve the following problem:
a. If the inflation rate

1. Using the triangle above, find the exact value of the following:
y
a. sin () =
b. cos () =
n
c. tan () =
y
n
d. cot () =
n
y
e. sec () =
n
2. Evaluate the following: sin ( sin 1 (1/2) + sin 1 (5/13).
= sin ( sin 1 (sin30 + sin 1 (5/13)
= sin (0.524 + 0

Yashira Franqui
MA 1310
Module 2 Lab
1. Find the exact value of:
a. sin 300
sin 300 = 360 - 60 = 3 = -0.866
2
b. tan (405) (Hint: 405 = 360 + 45)
405 = 360 + 45
45 =
4
sin
= 2
4
2
=
cos
2
4
2
sin = 1
cos
c. cot (
13
) (Hint:
3
13
3
=4
+
3
2. If sin < 0

The method I am choosing to discuss is trigonometric functions for sin, cos and tan. After doing
some research I found the easiest way to solve for these functions is using SOHCAHTOA. This
method seemed to good to be true but I put it to the test with the