Today, students started to explore the Bohr model of the hydrogen atom by analyzing the hydrogen spectra. They used a couple of pins and polar graph paper to sight the angle of each spectral line. They then calculated the wavelength and energy of each line. I provided them with the energy levels of the hydrogen atoms without stating the source to see if they could identify the pattern. While most groups accurately measured the spectra, they didn’t immediately connect the energy of the line to the transition between energy levels. We’ll discuss this more tomorrow.
Today, my AP Physics 2 students completed the second half of their photoelectric effect summative lab. Using their data, graph, and analysis from yesterday, they wrote a paragraph-length response to the following prompt:
Do these experiments support the wave model of light or the particle (quantum) model of light? Support your claim with multiple examples based on evidence from the experiments that both support your selected model and refute the other model. You should reference every experiment performed yesterday in your response.
Yesterday, students measured the relationship between stopping potential and light intensity and light frequency. They also measured the relationship between time to charge the capacitor and light intensity.
This prompt was pretty much the same as what I used to include as discussion questions for this lab. However, this year, to help students prepare for the AP Physics 2 exam, I’m taking some of the lab discussion question and making them into paragraph-length response questions that students complete in class with limited time.
Today, AP Physics 2 students returned from break and completed the first half of the photoelectric effect summative lab. Throughout this lab, they use PASCO’s excellent (and discontinued) h/e apparatus. This first half of the lab has students measure the time to recharge the capacitor for different intensities of light and measure the stopping potential for different frequencies of light. Tonight, they will graph stopping potential versus frequency, interpret the significance of the slope and y-intercept, and solve for h and the work function based on their graph.