Provide an appropriate response.Explain a method that could be used to solve 
+ 
- 
- 
= 0.
What will be an ideal response?
Use the addition principle to get two radical terms on each side of the equation. Square both sides. The resulting equation will have one radical term on each side. Isolate the two radical terms on one side of the equation, and square both sides a second time. Now one radical term remains. Isolate it, and square both sides again. This eliminates the final radical term, and you can proceed with the solution.
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Simplify the expression.(33)2
A. 81 B. 243 C. 729 D. 18
The graph of either a cubic or quartic polynomial f(x) with leading coefficient ±1 and integer zeros is shown. Write the complete factored form of f(x).
A. f(x) = x(x + 2)(x + 1)(x - 3) B. f(x) = x(x - 2)(x - 1)(x + 3) C. f(x) = x(x - 2)(x + 1)(x + 3) D. f(x) = x(x + 2)(x - 1)(x - 3)
Solve the formula for the specified variable.P = a + b + c for a
A. a = b + P - c B. a = P - b - c C. a = P + b + c D. a = b + c - P
Solve the problem.The concentration of a certain drug in the bloodstream t minutes after swallowing a pill containing the drug can be approximated using the equation 
where C(t) is the concentration in arbitrary units and t is in minutes. Find the rate of change of concentration with respect to time at 
minutes.
A. - 
units/min
B. - 
units/min
C. - 
units/min
D. - 
units/min