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If you are looking for some problems with solutions you can find some by clicking on the "Practice Problems" link above.
If you are looking for some problems with solutions you can find some by clicking on the "Practice Problems" link above.
Section 2.2 : The Limit
- For the function \(\displaystyle g\left( x \right) = \frac{{{x^2} + 6x + 9}}{{{x^2} + 3x}}\) answer each of the following questions.
- Evaluate the function the following values of \(x\) compute (accurate to at least 8 decimal places).
- -2.5
- -2.9
- -2.99
- -2.999
- -2.9999
- -3.5
- -3.1
- -3.01
- -3.001
- -3.0001
- Use the information from (a) to estimate the value of \(\displaystyle \mathop {\lim }\limits_{x \to \, - 3} \frac{{{x^2} + 6x + 9}}{{{x^2} + 3x}}\).
- Evaluate the function the following values of \(x\) compute (accurate to at least 8 decimal places).
- For the function \(\displaystyle f\left( z \right) = \frac{{10z - 9 - {z^2}}}{{{z^2} - 1}}\) answer each of the following questions.
- Evaluate the function the following values of \(t\) compute (accurate to at least 8 decimal places).
- 1.5
- 1.1
- 1.01
- 1.001
- 1.0001
- 0.5
- 0.9
- 0.99
- 0.999
- 0.9999
- Use the information from (a) to estimate the value of \(\displaystyle \mathop {\lim }\limits_{z \to \,1} \frac{{10z - 9 - {z^2}}}{{{z^2} - 1}}\).
- Evaluate the function the following values of \(t\) compute (accurate to at least 8 decimal places).
- For the function \(\displaystyle h\left( t \right) = \frac{{2 - \sqrt {4 + 2t} }}{t}\) answer each of the following questions.
- Evaluate the function the following values of \(t\) compute (accurate to at least 8 decimal places). Make sure your calculator is set to radians for the computations.
- 0.5
- 0.1
- 0.01
- 0.001
- 0.0001
- -0.5
- -0.1
- -0.01
- -0.001
- -0.0001
- Use the information from (a) to estimate the value of \(\displaystyle \mathop {\lim }\limits_{t \to \,0} \frac{{2 - \sqrt {4 + 2t} }}{t}\).
- Evaluate the function the following values of \(t\) compute (accurate to at least 8 decimal places). Make sure your calculator is set to radians for the computations.
- For the function \(\displaystyle g\left( \theta \right) = \frac{{\cos \left( {\theta - 4} \right) - 1}}{{2\theta - 8}}\) answer each of the following questions.
- Evaluate the function the following values of \(\theta \) compute (accurate to at least 8 decimal places). Make sure your calculator is set to radians for the computations.
- 4.5
- 4.1
- 4.01
- 4.001
- 4.0001
- 3.5
- 3.9
- 3.99
- 3.999
- 3.9999
- Use the information from (a) to estimate the value of \(\displaystyle \mathop {\lim }\limits_{\theta \to \,4} \frac{{\cos \left( {\theta - 4} \right) - 1}}{{2\theta - 8}}\).
- Evaluate the function the following values of \(\theta \) compute (accurate to at least 8 decimal places). Make sure your calculator is set to radians for the computations.
- Below is the graph of \(f\left( x \right)\). For each of the given points determine the value of \(f\left( a \right)\) and \(\mathop {\lim }\limits_{x \to a} f\left( x \right)\). If any of the quantities do not exist clearly explain why.
- \(a = - 2\)
- \(a = - 1\)
- \(a = 2\)
- \(a = 3\)
- Below is the graph of \(f\left( x \right)\). For each of the given points determine the value of \(f\left( a \right)\) and \(\mathop {\lim }\limits_{x \to a} f\left( x \right)\). If any of the quantities do not exist clearly explain why.
- \(a = - 3\)
- \(a = - 1\)
- \(a = 1\)
- \(a = 3\)
- Below is the graph of \(f\left( x \right)\). For each of the given points determine the value of \(f\left( a \right)\) and \(\mathop {\lim }\limits_{x \to a} f\left( x \right)\). If any of the quantities do not exist clearly explain why.
- \(a = - 4\)
- \(a = - 2\)
- \(a = 1\)
- \(a = 4\)
- Explain in your own words what the following equation means. \[\mathop {\lim }\limits_{x \to 12} f\left( x \right) = 6\]
- Suppose we know that \(\mathop {\lim }\limits_{x \to \, - 7} f\left( x \right) = 18\). If possible, determine the value of \(f\left( { - 7} \right)\). If it is not possible to determine the value explain why not.
- Is it possible to have \(\mathop {\lim }\limits_{x \to 1} f\left( x \right) = - 23\) and \(f\left( 1 \right) = 107\)? Explain your answer.