Here is a concise summary of the provided text:
**Title:** Making a Super Paper Airplane with Good Ballast
**Summary:**
* The author guides through making a paper airplane with a unique design that forms a good "star" shape and has effective ballast for faster flights.
* Step-by-step folding instructions are provided, with emphasis on precision and symmetry.
* Two modifications are suggested to enhance the plane's performance: applying glue to the middle for durability and adjusting the tail for better angle of attack.
* Flight tests are conducted with four variations (with/without glue and with/without a deep tail adjustment), revealing that:
+ The plane with glue but without the deep tail adjustment performed best.
+ The deep tail adjustment caused instability.
+ The plane without glue saw decreased performance over time.
**Additional Notes:**
* The video recording of this tutorial had technical issues, resulting in missing parts.
* The author invites viewers to try making the plane, promising more paper airplane tutorials, including an "infinite glider" and a catapult plane.
Here are the key facts extracted from the text, without opinions, in short sentences with numbers:
1. **Materials needed**: A sheet of bond paper is required to make the paper airplane.
2. **Airplane Type**: The paper airplane is a glider type, similar to a real plane without an engine.
3. **Folding Steps**:
* 3. **Initial Fold**: Fold the paper in half.
* 4. **Triangle Fold**: Fold the tip of the paper downwards to form a triangle.
* 5. **Square Formation**: A square is formed on one side after folding.
* 6. **Winglet Folds**: Folds on the wing, known as winglets, improve the plane's performance.
4. **Ballast Formation**: The folding process concentrates paper at the tip, creating a natural ballast.
5. **Adjustments**:
* 7. **Glue Application**: Applying glue in the middle can make the plane more resistant.
* 8. **Elevator Adjustment**: Two cuts on each side can form a curve to define the plane's angle of attack.
9. **Testing Combinations**:
* 9. **Four Variations Tested**: Planes with/without glue and with/without a deep elevator were compared.
10. **Test Results**:
* 10. **Best Performing Plane**: The plane with glue but without a deep elevator performed best.
* 11. **Performance Issues**:
+ Planes without glue had decreasing performance over time.
+ Planes with a deep elevator were unstable.
11. **Video Recording Details**:
* 12. **Recording Date**: The video was recorded in February 2015.
* 13. **Video Issue**: The video was initially unpublished due to a technical issue.