The activity of a sample of 35 16S (T12=87.32days) is 3.05×104 decays per second. What is the mass of the sample?
The activity of a sample of 35 16S (T12=87.32days) is 3.05×104 decays per second. What is...
For a 90 mg Ra-226 sample (T12 = 1,600 years) with an activity of 3.29 x 10 Bq, compute the following. (a) 1 in Bq) Bg (b) the number of atoms in the sample, based on mass considerations atoms (c) the number of atoms in the sample based on its activity atoms
Calculate the activity of a pure 5.8-μg sample of 3215P (T12=1.23×106s).
A radioactive sample has an initial activity of 400 decays/s. Its activity 22 hours later is 25 decays/s. What is its half-life Can you show how you do this. thank you
An ancient wooden club is found that contains 87 g of carbon and has an activity of 7.0 decays per second. Determine its age assuming that in living trees the ratio of 14C/12C atoms is about 1.3×10−12 csn you please explain every step, thank you
A sample of radioactive material is initially found to have an activity of 115 decays/min. After 4 d 22 h, its activity is measured to be 63 decays/min. 1) (a) Calculate the half-life of the material.
1. The remains of a pre-historic human are found. The mass of carbon in the sample is 8.5kg. The activity i.e. the number of decays per second is 700 decays/second. In living matter the ratio of 14c/?C=1.3. 10-12 14C is radioactive, whereas 12C is stable. Carbon's atomic mass is 12g per 6.02.102 atoms. The halflife of carbon is 5730 years. Make sure to label the different parts of your answer! a) How many carbon atoms are in the sample? b)...
A wooden artifact has a 14C activity of 19.5 disintegrations per minute, compared to 27.5 disintegrations per minute for live wood. Given that the half-life of 14C is 5715 years, determine the age of the artifact. ___ x 10 ___ yr A 0.0108−g sample of a radioactive isotope with a half-life of 1.3 ×109 years decays at the rate of 2.7 ×104 disintegrations per minute. Calculate the molar mass of the isotope. ___ x 10 ___ g/mol
A sample decays to 50% of its original activity after 24.3 hours. Determine the sample\'s half-life.
A railroad car of mass 2.45 ✕ 104 kg moving at 3.05 m/s collides and couples with two coupled railroad cars, each of the same mass as the single car and moving in the same direction at 1.20 m/s. (a) What is the speed of the three coupled cars after the collision? m/s (b) How much kinetic energy is lost in the collision? J
What is the half‑life of an isotope that decays to 25% of its original activity in 33.7 h? What is the half‑life of an isotope that decays to 12.5% of its original activity in 10.2 h?