Monday, October 31, 2011

Mentos and Soda Exp. 3–Finding the Perfect Recipe

What's the perfect Mentos and soda recipe? And what's it like to rope-swing over an erupting soda fountain? Watch Zack and Austin discover the answers.

DATA

Click here to see our data.

CONCLUSION

15 whole mint mentos + Pepsi Max = biggest explosion

(14 come in a pack and would probably be just as good)

FUTURE EXPERIMENTS

No doubt about it—this recipe will give you the biggest explosion.  But clearly there’s room for fine tuning.  For one thing, our experiment involved only single trials of each quantity of mentos and needs to be repeated.  It would also be good to test each number of mentos, ranging 1 to 14, to determine the perfect number.  We could also vary the temperature of the soda to see if it affects the explosion.

We might not get to it for a while, so if any of you followers conduct any of these experiments at home, we would love for you to post your results here.

Saturday, October 22, 2011

Fruit Punch Manometer

Zack and Austin build an 18-foot manometer with their dad and test their sucking strength.

Plus, bonus videos:

  • Thirsty Superman Riddle
  • How a Manometer Works

Questions:

  • What is a manometer and how does it work?
  • How high can you suck fruit punch up the straw?
  • What is siphoning and how does it work?

Materials:

  • 50-ft. of clear plastic tube, 1/4-in. diameter (Buy it here)
  • Fruit punch

Equipment:

  • Tape measure
  • (Elevation)

Science Principles and Terminology:

  • Pressure
  • Manometer
  • Siphon
  • Force: Gravity

Sunday, October 2, 2011

Rocket Science 101

Wondering what to do with all those empty soda bottles? Of course you can recycle them, but we’ve got a much more fun idea. Turn them into rockets!

Materials:

  • 2 2-liter soda bottles
  • clay
  • scissors
  • duct tape
  • fins (cardboard)

Rockets make fun toys, but if you can find a way to shoot them it’s literally a blast!  For those of you who live near us (San Diego area), you’re welcome to launch rockets with us on Oct. 21 (email us for details).  For the rest of you, we’re working on some ideas so stay tuned.  Or, if you come up with your own creative way to launch it, please share it with other viewers by posting a comment.

This year we will be launching our rockets at an angle with the objective of shooting them as far as possible.  It’s important to consider all of the manipulating variables ahead of time, because you most likely will not have enough launches to test all of them.  Here they are:

  • angle
  • volume of water
  • air pressure
  • design

Angle – Is there an angle that is always best for shooting projectiles the farthest, or does it change with different objects and circumstances?

Volume of Water – Water acts as a fuel.  By shooting out the bottom, it forces the rocket forward.  The more water that shoots out, the more thrust you’ll have; but it’ll also increase the overall mass of the rocket which slows it down.  Also, keep in mind that you need enough air (pressure) to push the water out.  Finding the right balance takes a lot of experimentation.

Air Pressure – If you filled the rocket entirely with water, it wouldn’t go anywhere.  It needs air pressure so that the air will expand and force the water out.  High air pressure pretty much means that there’s a lot of air crammed in a small space.  When the rocket is released at blast-off, the air immediately begins expanding and filling the fuel chamber.  How will pressure effect flight?

Rocket Design – You want a light-weight (low-mass) rocket that is also stable in flight.  One guideline for creating stability is to have the center of mass in front of the center of pressure.  To determine the center of mass, try balancing your rocket on a stick.  (This is the center of mass when the rocket is empty; but for the first part of it’s flight, the center of mass will be closet to the bottom, depending on the amount of water.)  You can move the center of mass forward by packing clay into the nosecone.

The center of pressure is harder to find, but it can be estimated by cutting out a two-dimensional drawing on cardstock and repeating the balancing act.  Placing fins at the rear of the rocket moves the center of pressure down, but too much fin will slow the rocket down.  Be careful to make each fin the same, place them evenly around the rocket, and line them up the same way.

There are so many variables to experiment with; be sure to only manipulate one of them at a time and to have controls (a baseline for comparing data).  If you are going to experiment with angles, trying 90 degrees (straight up) could be your control.  If you are experimenting with volume of water, running a trial with no water could be your control.  The thing we’re measuring (distance) is called the responding variable.

If you find yourself dreaming about rockets and can’t wait until the day of the launch, try this water rocket simulator by NASA

A little bit of research can give you quite a head start, but it doesn’t replace experience.  So prepare as best as you can for your first launch day, take notes of data and any special circumstances, share your notes and data and review those of others, and then start developing ideas for next year’s rocket.

Science terminology:

  • manipulating variable
  • responding variable
  • control variable
  • forces:
    • gravity
    • propulsion
    • resistance
  • aerodynamics
  • projectile motion
  • mass
  • center of mass
  • pressure
  • center of pressure

Monday, September 19, 2011

Growing Germs on Potatoes

Germs go from invisible to visible for Zack and Austin as they watch germ colonies grow on potatoes.

They collected germ samples from these sources:

  1. Duck pond
  2. Toilet
  3. Kenzie’s bowl
  4. Austin’s feet

They tested these cleansers:

  1. Bleach (4.7% solution)
  2. Simple Green (10% solution)
  3. Vinegar (100% white vinegar, 5% acid)
  4. Tea Tree Essential Oil (2% solution)
  5. Urine (100% Baby Scientist urine a.k.a. pee pee)

View the Google Spreadsheet for details of the results.

Tuesday, September 13, 2011

Hand-Powered Elevator

Zack and Austin built a hand-powered elevator with their dad’s help.

Materials:

  • 50 feet of 3/8 inch rope
  • 2 pulleys for 3/8 inch rope
  • Platform
  • 2 8-foot lengths of  1-inch PVC pipe
  • 4 strong stakes
  • Threaded hook
  • Counter-balance weight (bag and cinder blocks)

Equipment:

  • Power drill
  • Sledge hammer
  • Sawzall

Science Principles and Terms:

  • Simple Machines
    • Mechanical Advantage
    • Pulley
    • Lever
    • Wedge
    • Screw
  • Forces
    • Tension
    • Gravity
  • Counter weight/Balance
  • Bar linkage

Monday, August 22, 2011

Mentos and Soda Exp 2: Which candy is most explosive?

Objective

To determine which candy generates the largest explosion with soda.

Candies:

  • Pop Rocks
  • Altoid Mints
  • Skittles
  • Double Bubble Gum Balls, small
  • Fruit-flavored Mentos
  • Mint-flavored Mentos

Procedures

  1. Prepare 20 grams of each candy.
  2. Measure the mass of each bottle of soda.
  3. Load the candy into the soda.
  4. Taste the blast.
  5. Measure the mass of the bottle and remaining contents.

Data and Calculations

View the data and calculations in our Google Spreadsheet.

Conclusion

Mentos definitely give the biggest explosions, but Zack and Austin discovered that the candies that gave the smaller reactions also had reactions that lasted longer. It made for a tastier time.

Between the flavors of Mentos, the margin of error was too great to determine if one out-performed the other.  Further testing is needed.  Within the pack of fruit-flavored Mentos, there are several flavors which could each be tested separately.

Tuesday, August 16, 2011

Mentos and Soda Exp 1: Which Soda is Most Explosive?



Baby Scientists, Zack and Austin, want to know which combination of candy and soda will create the biggest explosion. They first experimented with a wide variety of sodas and mint mentos.

Objective

To determine which variety of soda generates the biggest explosion.

Procedures

  1. Measure the mass of the mentos and each bottle of soda.
  2. Load the mentos into the soda.
  3. Enjoy the blast.
  4. Measure the mass of the bottle and remaining contents.

Data and Calculations

 View data and calculations in our Google Spreadsheet.

Conclusion

Their winner: Pepsi Zero Max
Close second: Diet Pepsi Wild Cherry

Notes

Diet Coke is so popular for creating this reaction and we couldn’t test every single brand of soda, so we originally bought every variety of Coke plus others including Diet Pepsi.  But when the Coke Zero outperformed the Diet Coke and the Diet Pepsi tied the Coke Zero, we knew we needed to test all of the Pepsis—and it’s a good thing we did.