The radioactive plutonium isotope, 239Pu, has an half-life of 24 100 years and undergoes alpha decay....

The radioactive plutonium isotope, 239Pu, has an half-life of 24 100 years and undergoes alpha decay....

The radioactive plutonium isotope, 239Pu, has an half-life of 24 100 years and undergoes alpha decay. The molar mass of 239Pu is 239.0521634 amu. The sample initially contains 10.0 g of 239Pu. (a) Calculate the number of moles of 239Pu that are left in the sample after 15 000 years. (4) (b) Determine the activity of 239Pu after 15 000 years, in units of Bq.

The radioactive nuclide Plutonium-199 has a half-life of 43.0 min. A sample is prepared that has...

The radioactive nuclide Plutonium-199 has a half-life of 43.0 min. A sample is prepared that has an initial activity of 7.56 ×1011 Bq. i. How many Plutonium-199 nuclei are initially present in the sample? ii. How many are present after 30.8 min? iii. What is the activity at this time?

A radioactive isotope has a half-life of 72.0 min. A sample is prepared that has an...

A radioactive isotope has a half-life of 72.0 min. A sample is prepared that has an initial activity of 1.40×1011 Bq. Q1: How many radioactive nuclei are initially present in the sample? Q2: How many are present after 72.0 min? Q3: What is the activity after 72.0 min? Q4: How many are present after 144 min? Q5: What is the activity after 144 min?

The radioactive isotope 198Au has a half-life of 64.8 hr. A sample containing this isotope has...

The radioactive isotope 198Au has a half-life of 64.8 hr. A sample containing this isotope has an initial activity (t = 0) of 1.5x 10^12 Bq. Calculate the number of nuclei that decay in the time interval between t1 = 10 hr and t2 = 12 hr. Please show and explain work, and do not use calculus to solve it.

The radioactive isotope 198Au has a half-life of 64.8 hours. A sample containing this isotope has...

The radioactive isotope 198Au has a half-life of 64.8 hours. A sample containing this isotope has an initial activity at (t=0) of 1.50e-12 Bq. Calculate the number of nuclei that will decay in the time interval between t1=10 hours and t2=20 hours Answer is 4.60e16 but I'm not sure how. Thanks and please show work

15.58 The half-life for the radioactive decay of C−14 is 5730 years. How long will it...

15.58 The half-life for the radioactive decay of C−14 is 5730 years. How long will it take for 25% of the C−14 atoms in a sample of C−14 to decay? If a sample of C−14 initially contains 1.9 mmol of C−14, how many millimoles will be left after 2250 years?

The half-life for the radioactive decay of C−14 is 5730 years. Part A: How long will...

The half-life for the radioactive decay of C−14 is 5730 years. Part A: How long will it take for 25% of the C−14 atoms in a sample of C−14 to decay? Part B: If a sample of C−14 initially contains 1.9 mmol of C−14, how many millimoles will be left after 2255 years?

The gold nucleus Au(198,79) undergoes alpha decay with a half-life of 2.70 days. A. )  Find how...

The gold nucleus Au(198,79) undergoes alpha decay with a half-life of 2.70 days. A. )  Find how many neutrons and protons are in the daughter nucleus produced by this decay. B.) Find the activity in Bq (decays/sec) of a sample that contains 5.0 grams of Au(198,79) nuclei. C.) A 2.5 kg suitcase at an airport absorbs 2.0 × 10−3 J/kg from 100 keV x-rays. How many photons are absorbed?

The radioactive isotope thorium 234 has a half-life of approximately 578 hours. If a sample has...

The radioactive isotope thorium 234 has a half-life of approximately 578 hours. If a sample has an initial mass of 64 mg, a function that models the mass in mg after t hours is a(t) =   The initial mass will decay to 12 mg after ______ hours Radioactive decay equation: a(t) = a0⋅2 ^ (−t / h) a0 = starting amount a(t) = amount after t hours h = half life in hours

A radioactive isotope has an activity of 8.58×104 Bq initially. After 3.85 hours the activity is...

A radioactive isotope has an activity of 8.58×104 Bq initially. After 3.85 hours the activity is 5.15×104 Bq. What is the half-life of the isotope? Tries 0/20 What is the activity after an additional 3.85 hours?