The graph shows the decay of a radioactive sample over days. Select the data point at one half-life.
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The graph shows the decay of a radioactive sample over days. Select the data point at...
ii. Iodine-131 is a beta-emitting isotope used for treating thyroid cancer. Figure 2 shows a plot of the radioactive decay of l-131. Use Figure 2 to work out the half-life of I-131 by considering two consecutive half-lives for the isotope. Show your calculations. (3 marks) 250 000 200 000 150 000 number of I-131 nuclei 100 000 50 000 0 0 5 10 20 25 30 35 15 time/days Figure 2 A graph of the radioactive decay of l-131.
The decay of radioactive cadmium follows first-order kinetics. A sample of radioactive cadmium has a half life of 15 days. If you have a sample that originally weighed 40 g and later weighs 2.5 g, how much time elapsed between the initial and final masses? A. 45 days B. 600 days C. 60 days D. 100 days
Modeling radioactive decay in pennies MODELING RADIOACTIVE DECAY WITH PENNIES ADVANCED STUDY ASSIGNMENT MODEL 2: RADIONUCLIDE HALF-LIFE The time required for half of a sample of a radionuclides (radioactive isotopes) to decay is called the half-life (units of time). Table 2 below illustrates the half-lives of several radioisotopes and the Table 2: Half-lives of some Radioisoto barium-131 carbon-14 chromium-51 cobalt-60 iodine-131 uranium-238 Radiation Half-life 11.6 days 5730 yrs 27.8 days 5.3 yrs 8.1 days 4.47. 109 yr Application detection of...
Problem. The daughter nucleus formed in radioactive decay is often radioactive. In this case we have a decay chain as shown below A → B → C That is, atoms of A decay into an atoms of B and atoms of B decay into atoms of C. Let A0 represent the number of parent nuclei at time t = 0, A the number of parent nuclei at time t, and λ1 be the decay constant of the parent. Suppose the...
The decay of radioactive cadmium follows first-order kinetics. A sample of radioactive cadmium has a half life of 15 days. If you have a sample that originally weighed 40 g and later weighs 2.5 g, how much time elapsed between the initial and final masses? Given the following reaction: 2A (g) ↔ B (g) + C (g) ∆H˚ = +27 kJ K = 3.2 x 10-4 Which of the following would be true if the temperature were increased from 25˚C...
An unknown radioactive element decays into non-radioactive substances. In 760 days the radioactivity of a sample decreases by 77 percent.(a) What is the half-life of the element?half-life: (days)(b) How long will it take for a sample of 100 mg to decay to 68 mg?time needed: (days)
Radioactive Decay - Half-life and Activity 1 Radioactive decay - Half-life Time 0 1000 21 31 750 N 1.000.000 500,000 250,000 125,000 62,500 31.250 15.625 7813 3.506 1.953 977 51 6 500 7 BI . 101 250 125 0 tie 21.234.41516171819, 1012 Time in multiples of A radioactive sample's half-life is 30.2 years. 1 year = 365 days, 1 day = 24 hours, 1 hour - 60 minutes, 1 minute = 60 seconds (a) Find its decay constant in year...
Radioactive substances decay by first-order kinetics. How many days would be required for a sample containing phosphorus-32 to decrease to 38.45% of its initial activity? The half-life of phosphorus-32 is 1.42e1 days.
By looking at the graph, is it right to say that " Bq means 1 decay per second, in this case 50 decays in 13,6 days? Activity (Bad +Half-life- --- Half-life- I Half-life — 0 + 10 30 40 20 Time (days) Figure 5. Finding the half-life from three different sections of the graph to improve precision. The three measured half-lives are: • blue: 13.6 days • purple: 16.2 days • green: 18.0 days.
4. The decay of the radioisotope 1-131 was studied in a laboratory. The data collected are plotted on the graph below. Disintegration Rate (decays per minute) 16,000 14.000 12.000 10,000 8.000 2.000 20 24 8 12 16 Time (days) a. Determine the half-life, t12, of l-131 using the graph above. b. The data can be used to show that the decay of l-131 is a first-order reaction, as indicated on the graph below. 8 12 16 20 24 Time (days)...