Escape from Chernobyl Breakout - Adv. Chem

ESCAPE FROM CHERNOBYL

Honors Chemistry Nuclear Breakout

Start

THE MISSION

You have travelled back in time to the former Soviet Union. Your mission is to use the knowledge you have obtained in Advanced Chemistry to stop the nuclear power plant from melting down!

THE MISSION

You must go to 5 different rooms and complete each task given. After each task is complete you will get a number code. Be sure to write down the number codes for each room. At the end you will enter the number codes in room order for the last door. Open it, and you will avert disaster. Good luck!

Begin your mission by watching this video.

CHERNOBYL NUCLEAR POWER PLANT

Room 1: The Control Room

If you need help at any point during the Mission, use these tutorials to help you.

Which isotope would be unstable?

Nitrogen - 14

Silicon - 28

Magnesium - 24

Oxygen - 15

CORRECT!!

Search the page to find the password.

Room 2: The Containment Barrier

Watch the short video and then test your knowledge of fission and fusion! The reactor is getting out of control, so get started!

Does the following describe fission, fusion or neither?

Fusion

Fission

Neither

Does the following describe fission, fusion or neither?

Fusion

Fission

Neither

Which produces the same amount of energy as the Sun?

Fusion

Fission

Neither

Does the following describe fission, fusion or neither?

Fusion

Fission

Neither

Congrats on completing your first mission! write this number down: 0

In this room you will use what you know about balancing nuclear equations to get another number in the code! Watch the video below first to help you out.

Room 3: Schroedinger's Hideout

What particle will balance the following equation?

What particle will balance the following equation?

What particle will balance the following equation?

What particle will balance the following equation?

Congrats! You have your second number: 7 Write it down!

Room 4: The Coollant Pump

Now for your next challenge! In this room, you will face your toughest challenge yet. You will identify the complete nuclear reaction of different decay processes!

Which equation below represents beta decay of Zirconium-97?

Which equation below represents alpha decay of oxygen-15?

Determine what type of decay occurs when thorium-231 undergoes radioactive decay to form protactinium-231.

beta emission

alpha emission

gamma emmision

Good work! Don't relax yet though, you have one more room! Write down this number: 0

Room 5: The Reactor Core

Alright, good job so far, but let's see how you do with half life! Watch the video for help!

The half-life of Hf-182 is 1.0 x106 years. How much of a 1.00 gram sample of this isotope will remain at the end of 5 million years?

0.063 g

0.031 g

0.016 g

The radioisotope technetium-99 is often used as a radiotracer to detect disorders of the body. It has a half-life of 6.00 hours. If a patient received a 25.00 mg dose of this isotope during a medical procedure, how much would remain 48.0 hours after the dose was given?

0.005 mg

0.019 mg

0.098 mg

A rock sample originally contained 2.73 x 10-7 g potassium-40 which has a half life of 1.26 x 109 years. How much time has passed if 6.83 x 10-8 g of sample remains?

2.52 x 109 y

3.78 x 109 y

7.36 x 109 y

Congrats! You have the last number. The last digit is 9. Be sure to write it down! Now let's see if you can avoid meltdown...

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Enter the correct password 🚨

Password

MISSION FAILED

You've destroyed the power plant......

Try again

MISSION SUCCESS

You've saved the power plant from meltdown!

CLICK HERE TO COMPLETE THE EXIT TICKET!!