Unit 3 Nuclear Chemistry. Go to question 1 2 3 4 5 6 7 8 What is the result of an atom losing an alpha  particle? 6g of a radioactive isotope of 60 Co.

Slides:

Advertisements

Similar presentations

Nuclear Chemistry Targets: 1.I CAN Utilize appropriate scientific vocabulary to explain scientific concepts. 2.I CAN Distinguish between fission and fusion.

Advertisements

Nuclear Chemistry Basic Concepts.

Mini Quiz- Half Sheet H = 1.01 g/mol, O = g/mol S = g/mol, N = g/mol, I = g/mol 1.How many grams in 3.4 x molecules of H.

NOTES: 25.2 – Nuclear Stability and Radioactive Decay

Nuclear Chemistry.

Half Lifes. Atoms Proton Electron Cloud Neutron Atomic Number Number of protons – change this → change the element Hydrogen has one proton and one electron.

Nuclear Chemistry & Radioactive Decay. Nuclear Chemistry Defined Changes occurring WITHIN the nucleus of an atom Atomic nuclei often emit particles or.

1 Nuclear Radiation Natural Radioactivity Nuclear Equations Producing Radioactive Isotopes Half-Life Nuclear Fission and Fusion.

Half Lifes. Atoms Proton Electron Cloud Neutron Atomic Number Number of protons – change this → change the element Hydrogen has one proton and one electron.

1.Will not take any after next Tuesday 1/13 1.Define each of these terms: You may use your notes and they do not need to be in complete sentences  Energy.

Integrated Science Chapter 25 Notes

Nuclear Radiation Natural Radioactivity Nuclear Equations

Nuclear chemistry.

The Nucleus and Radioactivity

Nuclear Radiation Natural Radioactivity Nuclear Equations

Ch. 18: The Nucleus Review 21.1: Nuclear Stability and Radioactive Decay 21.2 Kinetics of Decay 21.3 Nuclear Transformations.

Nuclear Chemistry Bravo – 15,000 kilotons.

1 Nuclear Radiation Natural Radioactivity Nuclear Equations Producing Radioactive Isotopes Half-Life Nuclear Fission and Fusion.

1 Nuclear Radiation Natural Radioactivity Nuclear Equations Producing Radioactive Isotopes Half-Life Nuclear Fission and Fusion.

Chapter 18.  Mass # Symbol  Element Name or symbol – Mass #  Parts of a Reaction Reactants  Products.

Nuclear Chemistry Chemistry Ms.Piela.

Chapter 25 Review Solutions. Which of the following particles cannot be stopped by metal foil? a. Alphab. Betac. Gamma.

Nuclear Chemistry.

CHAPTER 9 Nuclear Energy I. Radioactivity (pg ) I. Radioactivity (pg )

Atomic Stability. Isotopes Isotopes are atoms of an element that have different numbers of neutrons in their nucleus. Cu Copper – 63 OR Copper.

What is it to be Radioactive? Radioactive decay is the process in which an unstable atomic nucleus loses energy by emitting radiation in the form of particles.

THE NUCLEUS: A CHEMIST’S VIEW. Nuclear Symbols Element symbol Mass number, A (p + + n o ) Atomic number, Z (number of p + )

Chapter 9 Nuclear Radiation

Review. What type of decay will happen if the nucleus contains too many neutrons? Beta Decay.

Nuclear Nat Why is radiation emitted from atoms? Because there nucleus is unstable. Due to the proton to neutron ratio.

Nuclear Chemistry Remember: Isotope = vary in number of neutrons, so mass of isotopes are different Written as: C-12 or 12 6 C.

Nuclear Chemistry Isotopes-Review ► Isotopes are atoms of the same element that have the same # of protons but different # of neutrons or mass. X Atomic.

Chapter 18.  Mass # Symbol  Element Name or symbol – Mass #  Parts of a Reaction Reactants  Products.

Nuclear Chemistry Objective: To explain the process of radioactive decay using nuclear equations and half life Essential Question: How do unstable (radioactive)

Unit 3 Nuclear. Go to question What is the result of an atom losing an alpha  particle? a.The atomic number increases and the mass number.

Nuclear Chemistry. Nuclear Reactions  Chemical reactions  What can NOT change in a chemical reaction?  Nuclear Reactions: changes that occur in the.

Nuclear Chemistry The Atom The atom consists of two parts: 1. The nucleus which contains: 2. Orbiting electrons. protons neutrons Multiple nuclei is.

RADIATION *Penetrating rays emitted by a radioactive source *Ranges from Cosmic and Gamma Rays to Radio Waves.

CHAPTER 22 Nuclear Chemistry

C. Johannesson CHAPTER 22 Nuclear Chemistry II. Radioactive Decay (p ) II. Radioactive Decay (p ) I IV III II.

Radioactive Decay.

Nuclear Chemistry. The Atom The atom consists of two parts: 1. The nucleus which contains: 2. Orbiting electrons. protons neutrons.

Nuclear Chemistry. Chemical ReactionsNuclear Reactions - Occur when bonds are broken or formed -Occur when the nucleus emits particles or rays -Atoms.

Nuclear Energy Nuclear Structure and Radioactivity.

Section 1: What is Radioactivity?

Types of Radioactive Decay Kinetics of Decay Nuclear Transmutations

Nuclear Chemistry. ATOMIC REVIEW: Atomic number = # of protons # of neutrons = mass # - atomic # protons & neutrons are in the nucleus.

Thursday, October 15 th, 2015 The ABG's (or Alpha, Beta, Gamma) of Radioactivity.

Nuclear Decay. Radioactivity The emission of high-energy radiation or particles from the nucleus of a radioactive atom.

Section 19.1 Radioactivity TYPES OF RADIOACTIVE DECAY EQ.: WHAT ARE THE DIFFERENT TYPES OF RADIOACTIVE DECAY AND HOW ARE THESE REPRESENTED IN A NUCLEAR.

Energy Unit Learning Goal 4: Examine how changes in the nucleus of an atom result in emissions of radioactivity.

Nuclear Symbols Element symbol Mass number (p + + n o ) Atomic number (number of p + )

Nuclear Chemistry Determining Half-Life. Types of Radiation  Alpha particle (  )  helium nucleus paper 2+  Beta particle (  -)  electron 1- lead.

 Nuclear Chemistry. Nuclear Vs. Chemical Reactions  Nuclear reactions involve a change in an atom’s nucleus, usually producing a different element.

Chapter 19 Radioactivity & Nuclear Energy Chemistry B2A.

Nuclear Stability and Decay 1500 different nuclei are known. Only 264 are stable and do not decay. The stability of a nucleus depends on its neutron-to-

 Reactions that affect the nucleus  Can change the identity of the element (if number of protons change)

Nuclear Radiation NC Essential Standard Types of Radiation, Penetrating Ability of Radiation, Nuclear Equations, Nuclear Decay, Half-Life, Fission.

NUCLEAR CHEMISTRY Chapter 20. Nuclear Chemistry Radioactivity is the emission of subatomic particles or high- energy electromagnetic radiation by the.

Nuclear Chemistry I.Half-Life II.Fission vs. Fusion.

1 Nuclear Radiation. 2 Radiation Radiation comes from the nucleus of an atom. Unstable nucleus emits a particle or energy  alpha  beta  gamma.

 Nuclear reactions deal with the nucleus  Chemical reactions deal with electrons  What is the difference!?!?! ◦ Nuclear reactions involve unstable.

Nuclear Radiation.

Nuclear Chemistry Physical Science.

Bell Work: Radioactivity

Unit 3 Nuclear Chemistry

Nuclear Chemistry Chapter 21.

Nuclear Chemistry.

Presentation transcript:

Unit 3 Nuclear Chemistry

Go to question What is the result of an atom losing an alpha  particle? 6g of a radioactive isotope of 60 Co has a half-life of 5 yrs. How much of this isotope would be left after 20 yrs? The process below represents …………… What is produced (X) when 238 U is combined with a neutron. To a saturated solution of sodium nitrate, a further sample of a radioactive sample of sodium nitrate was added. 131 I - can be used to study diseased thyroid glands. Its half-life is 8 days. A patient was given mol of this isotope. How many grams would be left after 16 days? A sample of pottery was found to have 3.3 mg of 14 C. If the half-life of 14 C is 5000 yrs how many mol of 14 C did the sample of pottery have when the pottery was made? There are 287 naturally occurring isotopes of which 18 are unstable or radioactive. What would the neutron:proton ratio be for the radioactive isotope 239 Pu?

What is the result of an atom losing an alpha  particle? a.The atomic number increases and the mass number increases. b. The atomic number decreases and the mass number increases. c. The atomic number increases and the mass number decreases. d. The atomic number decreases and the mass number decreases.

a hint!!!! 1 st hint What is meant by atomic number and mass number? 2 nd hint An alpha particle is a helium nucleus

What is the result of an atom losing an alpha  particle? Correct because…………. An alpha particle is a helium nucleus. It is made up from 2 protons and 2 neutrons, i.e. it has an atomic (proton) number of 2 and a mass number of 4. So the atomic number decreases and the mass number decreases.

6g of a radioactive isotope of 60 Co has a half-life of 5 yrs. how much of this isotope would be left after 20 yrs? a. 1.2 g b g c g d g

a hint!!!! 1 st hint How many half- lives are there over a period of 20 years? 2 nd hint Start-5 years-10 years-15 years-20 years.

6g of a radioactive isotope of 60 Co has a half-life of 5 yrs. How much of this isotope would be left after 20 yrs? Correct because……… The half- life of a radioactive isotope is a measure of the time it takes for activity to be reduced by half. Over a period of 20 years, 4 half-lives would be needed. 60 Co 6g 3g1.5g 0.75g 0.375g

Which process is represented by this nuclear equation? a. Nuclear fusion b. Nuclear fission c. Alpha emission d. Neutron capture U Ba Kr 91 + n

a hint!!!! Nuclear fusion takes place inside stars, where hydrogen is converted into helium.

a hint!!!! An alpha particle has an atomic number of 2 and a mass number of 4.

a hint!!!! Neutron capture would result in an increase in the mass number.

U Ba Kr 91 + Correct because………….. Nuclear fission involves the splitting of a nucleus into two nuclei. Which process is represented by this nuclear equation?

What is produced (X) when 238 U is combined with a neutron. n 0 1 U e 0 + X a. 92 U 239 b. 93 Pu 240 c. 92 U 240 d. 93 Pu 239

a hint!!!! A beta particle is lost, how would this change the atomic number?

a hint!!!! How does adding a neutron change the mass number?

What is produced (X) when 238 U is combined with a neutron ? Correct because………. Adding a neutron to 238 U increases the mass number increase by 1, but the atomic number (proton number) will not change. A beta particle is also emitted. This will change a neutron into a proton, so increasing the atomic number by 1. The atomic number of uranium is always 92. X = 93 Pu 239 n 0 1 U e 0 + X

When a 10g sample of radioactive sodium nitrate is added to 10 cm 3 of a saturated solution of sodium nitrate, the solution will….. a. have the same intensity of radiation as before. b. have a lower intensity of radiation. c. have a higher level of intensity of radiation than before. d. have no detectable level of radiation.

a hint!!!! An un-dissolved salt will be in dynamic equilibrium with the dissolved salt.

Correct because………. Have a higher level of intensity of radiation than before. This happens because in a saturated solution the excess solid is in a dynamic equilibrium with the dissolved solid. So over time some of the radioactive sodium nitrate will dissolve. When a 10g sample of radioactive sodium nitrate is added to 10 cm3 of a saturated solution of sodium nitrate, the solution will…..

131 I - (aq) can be used to study diseased thyroid glands. Its half-life is 8 days. A patient was given moles of This isotope. How many grams would be left after 16 days? a g b g c g d g

a hint!!!! 1 st hint How many grams is mol? n = mass/gfm 2 nd hint How many half lives are involved?

131 I - can be used to study diseased thyroid glands. Its half-life is 8 days. A patient was given moles of this isotope. How many grams would be left after 16 days? Correct because……….. The mass of 131 I - in n = n (number moles) = mass/gfm So mass = n x gfm= x 131=0.694g Ans: c g 131 I g 0.347g 0.174g 8 days 1 ½ life 16 days 2 ½ life

A sample of pottery was found to have 3.3 mg of 14 C. If the half-life of 14 C is 5000 yrs how many moles of 14 C did the sample of pottery have when the pottery was made? Age of sample / yrs x Mass of 14 C /mg a. 1.1 x 10 –3 mol b x 10 –2 mol c. 5.5 x 10 –4 mol d x 10 –4 mol

1 st hint How many mg of Carbon was in the pot when it was made? 2 nd hint n = mass/gfm a hint!!!!

A sample of pottery was found to have 3.3 mg of 14 C. If the half-life of 14 C is 5000 yrs how many moles of 14 C did the sample of pottery have when the pottery was made? Ans: d x 10 –4 mol age / yrs x 10 3 Mass of 14 C /mg Correct because…….. 3.3mg gives a time of years, i.e. 2 half-lives. So the pottery would have had 13.2 mg of 14 C when it was made. (13.2 => 6.6 => 3.3) n (number of moles) = mass/formula mass 13.2 mg/14 = 1.32 x / 14 =

There are 287 naturally occurring isotopes of which 18 are unstable or radioactive. What would be the proton:neutron ratio for the radioactive isotope 239 Pu? a. 1:1.54 b. 1:0.39 c. 1:1.00 d. 1:2.54

1 st hint 239 Pu has a mass number of 239 and an atomic number of nd hint Number of neutrons = mass no. – atomic no. a hint!!!!

There are 287 naturally occurring isotopes of which 18 are unstable or radioactive. What would the proton:neutron ratio be for the radioactive isotope 239 Pu? Correct because…….. 1:1.54 (indicates 1.54 x more neutrons than protons) 146/93 = 1.54 The proton:neutron ratio is an important factor in deciding whether or not a particular nuclide undergoes radioactive decay. The stable, lighter elements have a ratio of near to one. A greater number of neutrons to protons will result in a stable nuclei.