An Introduction to Water Rockets I

ScienceGuyOrg 2,968 views 47 slides Jan 11, 2010

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Learn about my experiences with water rockets in the first year. How they work, what materials are used for construction, and the equipment needed.

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Language: en

Added: Jan 11, 2010

Slides: 47 pages

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An
I n t r o d u c t i o n
t o Wa t e r
Ro c k e t s

      Water Rockets (What I Have Learned so Far) by Bill  Kuhl  http://www.scienceguy.org

The idea to try water rockets came to me after helping with a parks and recreation summer
camp that was entitled,  "Model Airplanes and Rockets". For at least one summer there were no
rockets but we built kites instead of rockets, and of course there was little wind.   I had built
solid fuel rockets as a kid but I knew that would be rather expensive for a large group, so I
thought the water rocket idea would be cheap once I purchased a launcher. Some people build
their own launchers, but I purchased the better launcher from Pitsco.

At first, I just built rockets that had no recovery system at all, this makes
things simple if the rocket survives the crash.

Kids really enjoy launching the water rockets.

Successful parachute deployment, not easy without a system to push nose off.

Next few pictures are from a parks and recreation group, they built the rockets mainly
from construction paper which does not hold up to a high-speed launch, but the kids
sure had fun!

Blast Off!!!

Rocket came apart on high-speed launch.

The Launch

The launch of a water rocket is really fun to watch, within the first few feet all the water
has been emptied from the bottle and the rocket can be going over 100 m.p.h.! Safe
practices are a must.

For water rockets you need a good quality pump, the pump on the left was a
cheap one and did not hold up. The pump on the right has gauge which is
necessary.

In this picture you can see the jaws clamping around the bottle.

Some method for carrying and pouring water is needed at the launch site.

Parachute recovery is really cool, but it is difficult to get reliable deployment every
time, I tried a few methods with varying success.

Below is what happens when the parachute does not deploy. Sometimes you can fix
the rocket but sometimes it is best to try a new rocket and another approach.

What are the problems and how can I fix it, that is what I thought about all the time. In
the picture above the fin material was not stiff enough for the size of the rocket and
was fluttering in flight. Altitude is greatly reduced when that happens.

Another problem I had was with the parachute lines twisting, using a
fishing swivel helped this greatly.

Fishing swivel helped with the twisted lines.

I tried many materials for the rocket fins; foam, cardboard from a milk
carton, and plastic from cottage cheese lids. The material needs to be rigid
enough and waterproof.

Fins cut from the lids of cottage cheese containers.

Fins cut from foam.

I also experimented with an AntiGravityResearch rocket which uses
A small hole in the nozzle which results in a slower launch.

A view from below.

Small hole changes the characteristics of the thrust, slower launch.

The yellow tube is inserted into small hole in the cap. Automatically
releases rocket when you stop pumping.

AntiGravityResearch rocket ready for launch, expensive launcher is not
needed.

Foam nose bumper fastened with rubber bands.

Fins are held on with rubber bands, white tube is a launch guide.

The next few pictures are of a Pitsco Saber rocket I built from a kit. An air
chamber that was held squeezed down by vacuum and released slowly when
the flap on the rocket came off was used for parachute deployment. This
worked well for several launches and then it failed for two launches. It was a
simple method for parachute deployment if only it was always reliable.

I taped the bottle when painting to create a water level indicator.

Depressing the air chamber.

The air flap hold vacuum in air chamber, flap rips off at launch, releasing the
vacuum which pushes the nose off.

Nose pushed off.

First rocket I built with a timer system. Spring mechanism pulls a pin
which releases a spring that pushes nose off. It is fun to engineer
new solutions and to refine the solutions.

Timer is in the bottom-right, servo arm is attached to the knob on timer,
string attached to servo arm pulls out the pin.

When pin is pulled out, a compressed spring pushes hinge up and the rod
that pushes the nose off.

Long rod pushes the nose off, I will refine this in future versions.

Braided wire holds the timer until rocket launches which pulls the
wire out releasing the timer.

Parachute deployed successfully!!

Touchdown!

Be sure to watch my video,
An Introduction to Water
Rockets I on YouTube.
Contact me by email at
[email protected]
Bill Kuhl

An Introduction to Water Rockets I

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