Arithmetic/Geometric Sequences and Series
Adding/Subtracting Rational expressions
Adding Polynomials
Trigonometry
100
Tell whether the following sequence is arithmetic or not. Explain your reasoning.
7, 16, 27, 40, 55
not arithmetic, the differences are not constant
100
8 Rad(125) - Rad (5)
39 Rad(5)
100
(3x3 – 5x + 9) + (6x3 + 8x – 7)
9x3 + 3x + 2
100
Evaluate:
Sin (2π)
0
200
Tell whether the following sequence is geometric or not. Explain your reasoning.
1/3, 1/9, 1/27, 1/81, 1/243
geometric, the common ratio is ⅓
200
-5 Rad(2) - 9 Rad(8)
-23 Rad(2)
200
(2x2 + 5x + 7) + (3x2 −2x + 5)
5x2 + 3x + 12
200
Evaluate:
Tan (60)
√3
300
Using the general rule an=a1+(n-1)d, write a rule for the nth term of the sequence, then find a10.
11, 24, 37, 50,...
an=13n-2, a10=128
300
-3 Rad(75)+ 4 Rad(3)
-11 Rad(3)
300
(9x5 – 6x3 + 7x2) – (7x3 – 6x5 + 2x2)
15x5-13x3+5x2
300
The terminal side of an angle 0 in standard position intersects the unit circle at (-√73/9, 2√2/9).
What is Cos (0)?
-5√249/83
400
Write the first 6 terms for the following geometric sequence.
a2=15, r=3
5, 15, 45, 135, 405, 1215
400
-8 Rad(80) + 6 Rad(5)
-26 Rad(5)
400
3a2 + ab – b2, -a2 + 2ab + 3b2 and 3a2 – 10ab + 4b2
5a2 – 7ab + 6b2
400
Solve the right triangle:
x=5√2
500
S12=-72
500
-10 Rad(125) - 3 Rad(80)
-62 Rad(5)
500
15x3 – 6x – 23, 3x3 – 5x2 + 8x + 10, -8x3 + 2x2 – 7x and 9x2 – 4x + 15
10x3 + 6x2 – 9x + 2
500
Find the cotangent:
0.75