Mission Possible B

Mission Possible B is very similar to formerly-run Mission Possible C. The B division version does not include any energy sources outside of gravity and is based on energy transfer between different simple machines such as levers of different classes, pulleys, screws, inclined planes, wheel and axles, wedge etc. Each simple machine is specifically explained in the rules. Any deviation from these rules will result in the loss of points. ex. an wedge must be used as a "wedge" to lift or separate something. A wedge cannot just "push something off of a surface, it must exhibit "genuine wedge action". Rules for this even are very specific but do allow a great amount of creativity in how you use and connect your machines. The k.i.s.s. principal is your friend: keep it simple stupid. Reliability is the goal! The task sequence list (TSL) is also very important. You only receive points you claim to get on the list, no more, but you can get less.

Tip: KNOW THE RULES! Know them better than you know your best friend! They are your best friend when you follow them, but can quickly become your worst enemy when you decide not to look at the details.

Also: Remember to know what simple machines you use so that when you tell the judge you will get the right amount of points. If you don't know them you wont get any points.

=Physics of Simple Machines= Mission Possible is all about simple machines. What exactly is a simple machine? A simple machine is a machine that uses one concept to increase distance or power of a force. There are 6 types of simple machines.


 * Wedge
 * Screw
 * Pulley
 * Wheel and Axle
 * Inclined Plane
 * Lever

Each machine is unique in its own way in that they distance or power in different ways. They also may change the direction in which a force is applied.

IMA
On the rules sheet, you may have seen "IMA" quite a lot of times. Like me, you were probably wondering, "What is IMA?" Instead of making up acronyms, let's take a look at the concept of Ideal Mechanical Advantage.

Ideal Mechanical Advantage is the multiplier of the force from what was applied to the result force. So when you have an IMA of 2, that means that the force you applied was doubled by the simple machine. When you have an IMA of .5, that means that the force you applied was halved by the simple machine. When you have an IMA of 1, that means the force that you applied stayed the same. Key Concept: With simple machines, you exchange power with distance. So let's take a look at a simple machine with an IMA of 2. If you applied 2 units of force for 4 meters, the result would be 4 units of force for 2 meters. This may seem confusing without a proper explanation and understanding of physics, but you can read a physics textbook if you want to fully understand the concept of simple machines. Now, let's take a look at each individual type of simple machine.

Pulleys
I think this is the

=Key Points=

1. The action of each simple machine will determine which of the eight types of simple machines it is most like.

2. Find out when the Simple Machines List is to be given to the Tournament Director. Meet the deadline. Resist changing the device after this. Spend time perfecting the device.

3. Label the actual simple machines and make sure that the numbers match the Simple Machines List.

4. The simple machines of the same type do not have to be unique. Note that consecutive machines of the same type (even though unique) still only count as one machine.

5. Make sure to meet the general requirements, since failure to do so is a severe penalty (you get second tiered). Make sure that all parts of the device, including the outer walls and base plate fall within the legal dimensions of the device.

6. Be safe by using a mechanical timer. The sand and water in the pulley system should account for any needed use of extra time.

7. Do not use any loops or parallel paths in the device. Make sure that the action is linear from start to finish.

8. The highest part of the device automatically designates the top boundary of the device.

9. You can start parts of the device operating before the pulling of the string (such as pendulums, springs, etc.).

10. You will not be allowed to touch the device at or beyond the next-to-last simple machine. Make sure that this works every time.

11. Remember that you will probably lose any positive points for time if your device fails to complete the task, but continues to operate.

12. The only thing that should control how much the mass is lifted is the operation of the last paddle wheel ( no pulleys, motor, etc)

=Tips= 1) Know your task sequence list as well as you know your rules. Be able to explain everything.

2) Go with the simplest way possible. There is less to be fixed that way.

3) Draw all your designs and keep them together in case something doesn't work and you need to build something new.

4) Prepare for every scenario you can think of. Bring just-in-case items, but don't go overboard.

5) Test your device prior to competition many, MANY times--do not just build it and bring it in.

6) Practice with your partner and make sure that s/he knows what s/he's doing!

7) And last but not least, KNOW THE RULES.