Topic
Q:
Find Domain of the following: \( h(x)=\frac{x}{\ln x} \)
A) \( R \)
B) \( R-\{0\} \)
C) \( ] 0, \infty[ \)
D) \( ] 0,1[U] 1, \infty[ \)
Q:
What is the maximum of \( f(x)=\sin (x) \) ?
\( -2 \pi \)
-1
1
\( 2 \pi \)
Q:
State the equation of \( f(x) \) if its domain is \( \{x \in R \mid x \neq 0\} \), the \( y \)-intercept does not
exist, and the equation of the horizontal asymptote is \( y=1 \).
Q:
Question
simplify: \( \sqrt{\frac{36 c^{12}}{4 c^{4}}} \)
Q:
\( f ( x + \Delta x ) = 4 ( x + \Delta x ) ^ { 2 } - 5 ( x + \Delta x ) \)
Q:
Factor.
\[ x^{2}+4 x-45 \]
Q:
Simplify.
\[ \frac{\sqrt{32}+14}{18} \]
Q:
CHALLENGE Terry had 14 tulips and twice as many daffodils. How
Terry have in all?
Q:
Solving a quadratio equation using the square root property, Decim
Solve \( 60=5 v^{2} \), where \( v \) is a real number,
Round your answer to the nearest hundredth.
If there is more than one solution, separate them with commas.
if there is no solution, click on "No solution",
Q:
If \( \frac{a}{b}=12 \), then \( \frac{a}{3 b}= \)
\( \begin{array}{llll}\text { (a) } 36 & \text { (b) } 4 & \text { (c) } 3 \\ \text { Which of the following represents a solution to the equation : } 3(x+6)=0 \text { in } \\ \begin{array}{lll}\text { (a) } \frac{1}{2} & \text { (b) }-\frac{1}{2} & \text { (c) }-6\end{array} \\ \text { Two consecutive odd numbers their sum is } 24 \text {. Which of the following equati }\end{array} \)
expresses that?
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