QUESTION 3 3 points (E A 2.000-mg sample of a sample is found to have produced...
A The half-life of cobalt-60 is 5.20 yr. How many milligrams of a 2.000-mg sample remains after 6.55 years? 0.837 B. 3.23 x 10-15 OC. 4.779 OD. 1.588 E. 1.163
1. For a first order decay of [A], if 525 mg remains of an initial sample of 1.3079 g after 361 min, what is the half life (in minutes)? 2. The decay of antimony-131 is first order with a half life is 23.03 minutes. How much of 1.4228 g sample would remain after 1.368 hours? 3. The decay of antimony-131 is first order with a half life is 23.03 minutes. How long (in minutes) would it take for a 0.8893...
A sample of radioactive material is initially found to have an activity of 114 Bq. After 4 days and 5 hours, the activity of the sample is found to be 85 Bq. 1) Calculate the disintegration constant of this material. 1 = 51 Submit 2) Calculate the half-life of the material. T12- days Submit 3) How long from the beginning (when the activity was 114 Bq) did it take for the sample to reach an activity of 10 Bq? t...
a)For a first order decay of [A], if 188 mg remains of an initial sample of 1.3737 g after 516 min, what is the half life (in minutes)? b)The decay of carbon-14 is first order with a half life is 5576 years. How much of 1.4376 g sample would remain after 9190 years? c)The decay of cesium-135 is first order with a half life is 3.0 million years. How long (in years) would it take for a 0.9798 g sample...
Question 1: Answer the following questions regarding half-lives. Assume first-order half life kinetics (2 pts total). A. The half-life of Co-60 is about 5.25 years. Starting with a 42 g sample, how much remains after 21.0 years have passed (1 pt)? B. The Spider that bit Miles Morales secretes an unknown radioactive chemical that decays via first order kinetics. Originally 27.0 mg, only 5.3 mg remains after 32 days. What is this compound's half-life (1 pt)?
a first order reaction with a single reactant (A) is found to have a half-life of 69.4 seconds. 1) calculate the rate constant for the reaction 2) if [A]0=0.100 M , calculate [A]t at 60.0 seconds 3) how long will it take , in mintues for 90.0 % of A to decompose ?
please show work An aqueous suspension of drug X was formulated containing 100 mg of the drug per teaspoon (5 ml). When the suspension was stored at room temperature (25°C), the half-life was found to be 3.0 days. The half-life increased to 20 days when the suspension was stored in the refrigerator (5°C). Assuming pseudozero-order degradation, calculate the rate constant of drug X at each of these temperatures. (Note: drug degradation in a suspension follows pseudo zero order kinetics)
Question 14 1 pts A 4.50-mg sample of a newly discovered radioactive nuclide was analyzed and found to contain only 3.25 mg after a period of 25.9 h. What is the half-life of the nuclide? O 75.0 h O 55.2 h O 73.5 h O 11.4 h 18.9 h
You have an unknown radioactive material. If you start out with a 405 mg sample, and after 120 minutes, 53.1 mg remains, what is the half life?
Question 1 10 points Save Answer A 0.455 g sample of magnesium is allowed to burn in 2.315 g of oxygen gas. The sole product is magnesium oxide. After the reaction, no magnesium remains and the mass of unreacted oxygen is 2.015 g. What mass of magnesium oxide is produced?0.755 mg 0.755 g 7.55g 7.55 mg