Procedures:
1. Boat terms
2. Thumbnails
3. Problem Solving Process
4. Draw wood blanks
5. Draw to scale
6. Cut wood blanks with keel line
7. Drill hole for mast
8. Apply paper and Cut top view
9. Apply paper and Cut side view
10. File and sand and glue in mast
11. Poly
12. Steel wool and re-poly
13. Paper sails and keel design
14. Final sail and keel
15. Practice
16. Race
NOTES:
· Wood blank is 7 x 2 x ¾”
· Rip keel line in bottom of wood
· Keel size is 3” x 1”
· Boat holder is 2 ½ x 3 x ¾”
· Mast is ¼” x 5 ½
1. Ability of an object to float.
2. The amount of space an object takes up when placed in a fluid.
3. 62.4 lb/cu. ft 8.3 lb/gal
4. It displaces more weight in water than the weight of the ship.
5. 801 cu. ft. 6024 gallons
6. YES
35 FT STEEL = 17,325 LBS
295 FT WATER = 18,408 LBS
1. Boat terms
2. Thumbnails
3. Problem Solving Process
4. Draw wood blanks
5. Draw to scale
6. Cut wood blanks with keel line
7. Drill hole for mast
8. Apply paper and Cut top view
9. Apply paper and Cut side view
10. File and sand and glue in mast
11. Poly
12. Steel wool and re-poly
13. Paper sails and keel design
14. Final sail and keel
15. Practice
16. Race
NOTES:
· Wood blank is 7 x 2 x ¾”
· Rip keel line in bottom of wood
· Keel size is 3” x 1”
· Boat holder is 2 ½ x 3 x ¾”
· Mast is ¼” x 5 ½
1. Ability of an object to float.
2. The amount of space an object takes up when placed in a fluid.
3. 62.4 lb/cu. ft 8.3 lb/gal
4. It displaces more weight in water than the weight of the ship.
5. 801 cu. ft. 6024 gallons
6. YES
35 FT STEEL = 17,325 LBS
295 FT WATER = 18,408 LBS