Part 1. Qualitative Shielding Observations Number of Counts in 15 seconds Decay Type Isotope Aluminum Steel Air Lead Concrete Alpha Beta Gamma Barium-137 Which material blocks gamma rays most effectively? Which material blocks beta minus particles (electrons) most effectively? Which material blocks alpha particles most effectively? Part 2. Blocking Gamma Graph Make sure your active source is Gamma rays (Ba-137). Set the material to Lead. Record the counts for 15 seconds. Thickness Counts in 10 seconds Counts Thickness Counts (mm) Trial 1 Trial 2 Trial 3 Average (mm) Average Place Graph down here Which type of curve fit the data best? Roughly what thickness of lead was needed to cut the number of counts in half?Part 1: Qualitative Shielding Observations 1. Open up the Excel sheet tor this lab. This is where you will record the data and answers to questions. . Click Begin. You will see a radioactive source decaying, a counter, a time display, shield material. and shield thickness. It should look like this: Radioactive Shielding Lab r enemies: 919.017.:- - e - - - - - are P..E_'_E.',f| ' \"-313?me 1k- . By clicking the displays you can change them, Clicking the "Barium\" box will change to Radium, then to Carbon 14, then back to Barium. The decay is given by the Greek letter: y is Gamma (Barium), 8 ES Beta- minus decay, ct is Alpha decay. Keep the Shield Thickness where it was at the beginning (generally between 15 mm and 18 mm}. For each type, record in the table in Excel which isotope it is (for Gamma decay. it isBarium-137. which is already filled lnl. then try each shielding material (cllck shield information materia . such as Aluminum, to change) and wait until the timer reaches 15 seconds. then press Hold; record the number of counts. Switch to the next material, wait 15 seconds. record the counts. Generally. you will need to click Reset to start the counting and timer; clack Hold when you get to 15 seconds. It's tough to stop it exactly on 15 seconds; if you're close that's good enough. Alter acquiring your data answer the questions in the Excel sheet. Part 2: Blocking Gamma Rays with Lead, Analysis and Graph 1. Reset and make sure your active source is of Gamma Radiation. 2. Set the shield material to tead. You will vary the thickness to ten different thicknesses. For each thickness. record the number oi counts received in fteen seconds. Do each thickness three times, You will then average the counts. 3. Copy the Thickness column over to the right in the Excel sheet and copy the Counts Average column also. Create a graph of Average Counts vs. Thickness in mm. Do a curve fit for the graph {it's NOT a line). Try the different curves. make sure to disptay the R' value, and see which graph type gives you the highest R' value. Record that in the Excel sheet. 4. By looking at your graph and data. estimate what th'admess of lead was needed to cut the number oi counts in half [compared to the thinnest lead). Use the curve t graph to determine this. 5. Save your Excel file and upload to DZL, Assessments, Assignments, Lab 13