Toilet-
- -Scottish stone huts
- -Large pans connected to a water supply
- -Communal Roman bench lavatories
- -A small opening over a moat
- -A water closet where waste drains
- -The modern flush toilet
Weapons and tools composition-
- -Wood
- -Stone
- -Copper
- -Iron
- -Steel Alloy
- -Carbon fiber
Time Keeping Devices (Clock)-
- Sundial
- Water Clocks
- Candle Clock
- Incense Clock
- Astronomical Clock
- Hourglass
- Mechanical Clock
- Pendulum Clock
- Pocket Watch
- Chronometer
- Electric Clock
- Quartz Clock
- Atomic Clock
- Digital Clock
Written by: Ryan Lee and Trice Pickens
- -Scottish stone huts
- -Large pans connected to a water supply
- -Communal Roman bench lavatories
- -A small opening over a moat
- -A water closet where waste drains
- -The modern flush toilet
Weapons and tools composition-
- -Wood
- -Stone
- -Copper
- -Iron
- -Steel Alloy
- -Carbon fiber
Time Keeping Devices (Clock)-
- Sundial
- Water Clocks
- Candle Clock
- Incense Clock
- Astronomical Clock
- Hourglass
- Mechanical Clock
- Pendulum Clock
- Pocket Watch
- Chronometer
- Electric Clock
- Quartz Clock
- Atomic Clock
- Digital Clock
Written by: Ryan Lee and Trice Pickens
Tennis Ball Holding Device
Given five pieces of balsa wood, six feet approximately of string, and a piece of paper we as a group tried designing a device that could hold multiple tennis balls without failure of one bouncing out. The first thing we did was plot before using materials and decided that using the paper as the container for the balls would be the best option. Then we had to find a way to shape the paper and create a way to stop the balls from rolling out so we used the balsa wood as side rails to keep balls in and create a foundation for the papers structure. We then plotted how we would solve the tennis balls from bouncing out so we loosely tied string to the constructs bottom to do that.
The end result was a container that could hold one ball without fault.
The end result was a container that could hold one ball without fault.