For the following filter circuit choose the correct frequency response characteristic.

To determine the frequency response characteristic of a filter circuit, we need to analyze its components and configuration.

1. Identify the type of filter circuit: Is it a low-pass, high-pass, band-pass, or band-stop filter? This information will help us understand the frequency range that the filter is designed to pass or attenuate.

2. Examine the circuit components: Look for capacitors, inductors, resistors, and operational amplifiers (if applicable). Each component plays a role in shaping the frequency response.

3. Analyze the circuit configuration: Determine if the circuit is an active or passive filter. Active filters use operational amplifiers to amplify or attenuate specific frequencies, while passive filters rely on passive components like capacitors and inductors.

4. Calculate the cutoff frequency: The cutoff frequency is the frequency at which the filter starts to attenuate or pass signals. It is an important parameter in determining the frequency response characteristic.

5. Plot the frequency response: Based on the type of filter circuit and its components, plot the frequency response characteristic. This can be done using software tools like MATLAB or by hand using a graph.

6. Interpret the frequency response: Analyze the plotted graph to determine the filter's behavior at different frequencies. Look for characteristics such as gain, attenuation, and bandwidth.

7. Choose the correct frequency response characteristic: Based on the analysis of the frequency response graph, select the appropriate characteristic for the given filter circuit. This could be a steep roll-off, flat response, or a specific passband or stopband.

By following these steps, you can accurately determine the frequency response characteristic of a filter circuit.