choose an isotope and describe its radioactive decay process and how it is used a minimum...

Suppose that on average atoms of a particular radioactive isotope decay to atoms of a stable...

Suppose that on average atoms of a particular radioactive isotope decay to atoms of a stable isotope in 2 minutes. (a) Let T1 and T2 be the independent decay times of two radioactive atoms in a sample. Compute the cdf of M := max{T1, T2}. (b) If a sample is known to contain 3 radioactive atoms with independent decay times, what is the probability that the sample will still be radioactive in 4 minutes?

Describe a radioactive isotope that exists in nature. Provide details on what the product is the...

Describe a radioactive isotope that exists in nature. Provide details on what the product is the half-life, what the daughter products are and the type of decay process that occurs. Discuss whether the daughter product or products are stable or unstable. Be sure to cite your source.

The exponential decay function for 100 mg of the radioactive isotope californium-253 is given by the...

The exponential decay function for 100 mg of the radioactive isotope californium-253 is given by the function below, where t is in days: v(t)= 100e^-0.0389t Find the rate of change of the radioactive isotope after 30 days has elapsed with full steps please

Carbon-14 is a radioactive isotope of carbon. It decays into Nitrogen-14 through beta decay, with a...

Carbon-14 is a radioactive isotope of carbon. It decays into Nitrogen-14 through beta decay, with a half-life of 5730 years. By comparing the amount of radioactive Carbon-14 with the amount of stable Carbon-12 (the most common isotope of carbon), we can determine the age of an object. a) How many protons and neutrons are in Carbon-14? Carbon-12? b) How many years will it take for an object to lose 87.5% of its Carbon-14? c) If 10000 years have passed, what...

The exponential decay function for 80 mg of the radioactive isotope nitrogen-12 is given by the...

The exponential decay function for 80 mg of the radioactive isotope nitrogen-12 is given by the function below, where t is in minutes: y(t)=80e-0.0696t Find the rate of change of the radioactive isotope after 22 minutes has elapsed. Round answer to 2 decimal places. SHOW WORK

The radioactive isotope which is often used for diagnosis and imaging in nuclear medicine has a...

The radioactive isotope which is often used for diagnosis and imaging in nuclear medicine has a half-life of 3 days. What was the initial mass of the isotope before decay, if the mass in 6 weeks was 5g?

Radioactive decay can be used to determine the age of an object. If you know the...

Radioactive decay can be used to determine the age of an object. If you know the number of radioactive nuclei with which an object started, the number of radioactive nuclei currently present, and the half-life of the isotope, you can calculate the time since the object was created. Suppose an object was created with 3.270×109 nuclei of a particular isotope that has a half-life of 1.66×103 yr. At this point in time 1.079×109 nuclei of this particular isotope remain. What...

When radioactive tracers are used for medical scans, the tracers both decay in the body via...

When radioactive tracers are used for medical scans, the tracers both decay in the body via radiation, as well as being excreted from the body. The effective half-life of the radioactive tracer is due to the combination of both effects. Medical experiments show that a stable (nonradioactive) isotope of a particular element have an excretion half-life of 6 days. A radioactive isotope of the same element has a half-life of 9 days. What is the effective half-life of the radioactive...

A patient is given 0.045 mg of technetium-99 m , a radioactive isotope with a half-life...

A patient is given 0.045 mg of technetium-99 m , a radioactive isotope with a half-life of about 6.0 hours. How long does it take for the radioactive isotope to decay to 8.0×10−4 mg ? (Assume no excretion of the nuclide from the body.)

The radioactive isotope 32P decays by first-order kinetics and has a half-life = 14.3 days. How...

The radioactive isotope 32P decays by first-order kinetics and has a half-life = 14.3 days. How many atoms of a 1.0000 ug sample of 32P would decay in 1.0000 second? (Assume 1 decay per atom.)