Is Bernoulli's Principle a Viable Method for Investigating Flight Factors?

In summary, the Homework Statement is to design a practical experiment to see how Bernoulli's Principle affects flight. The independent variable will be the thickness of the wing and the dependent variable will be the horizontal displacement. To do this, the participant plans to alter the thickness of the wing and measure its effect on the horizontal displacement.
  • #1
OhyesOhno
28
0

Homework Statement



I'm supposed to design a practical about factors that affect flight. I've decided to use Bernoulli's Principle to help me do this experiment. So I am planning to alter the thickness of the wing (independent variable) see its effect on the horizontal displacement (dependent variable).

So I just want to know if this is feasible... and is there a relationship between it? Or maybe i should have the angle of the wing as my independent variable and the horizontal displacement/speed for my dependent variable? If it is not feasible, what do you think I should alter on? What relationship there is between the independent variable and dependent variable?

Thanks
 
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  • #2
That lab sounds a little hokie to me since the wings displacement will be affected by what it is holding it in place and allowing the displacement. If you want to show the affects of the Bernoulli principle I would either adjust the angle of the airfoil or the velocity of the airflow and then measure the lifting force. The force will have a direct and somewhat proportional relationship to the airfoil angle and/or air speed.
 
  • #3
is there a formula for the relationship? And what do u mean by velocity of airflow?
 
  • #4
OhyesOhno said:
is there a formula for the relationship? And what do u mean by velocity of airflow?

The Bernoulli effect is the effect of a faster moving fluid having a lower pressure. The pressure differential is what lifts the wings. Hence by having something - a fan say - move air at different input velocities you can demonstrate lift in a wing cross section. The greater the path length differential, the greater the speed, the greater the lift. Alternatively you can show different cross sectional effect with the same velocity.

2 parallel surfaces - no lift
1 flat, 1 convex on top - + lift.
 
  • #5
So by wing cross section you mean is the thickness of the convex of the wing? Can I do that for my independent variable? Or the angle of the wing (the tilt)?
 
  • #6
OhyesOhno said:
So by wing cross section you mean is the thickness of the convex of the wing? Can I do that for my independent variable? Or the angle of the wing (the tilt)?

I'd go with thickness, because that demonstrates the principle. Tilting is adjusting the angle of attack. You can do a kite for that.
 
  • #7
Alright! And do you think I should make the plane and throw it around and see its horizontal displacement or put it in front of a fan and see how much lift it gives me? Sorry for asking a lot, I'm kind of blank about this topic :P
 
  • #8
OhyesOhno said:
Alright! And do you think I should make the plane and throw it around and see its horizontal displacement or put it in front of a fan and see how much lift it gives me? Sorry for asking a lot, I'm kind of blank about this topic :P

Throw a plane? What does that show that you can measure?

I'd build a box with plexiglass sides and a blower across (uniformly as you can get it) the opening flowing over top and bottom (front to back of course) with a wing cross-section that provided a semi decent seal across the box and have it attached to a spring, and guides to constrain it to only go up or down, not flop around. Then you can turn the fan on and mark how high it rises.

Then you can determine the spring constant and identify how much lift you achieved.
 
  • #9
Ah... I wish this forum have a sketch post or something.

Well, thanks a lot then! I think I can imagine what it looks like now.
 

FAQ: Is Bernoulli's Principle a Viable Method for Investigating Flight Factors?

How do you design a lab about flight?

Designing a lab about flight involves several important steps. First, you need to determine the objectives of the lab and the specific concepts or principles you want to cover. Next, you will need to plan and gather materials, such as model planes, paper, and other items. Then, you can develop procedures for conducting experiments and collecting data. Finally, you will need to analyze and interpret the data to draw conclusions about flight.

What materials are needed for a lab about flight?

The materials needed for a lab about flight will vary depending on the specific objectives and experiments you have planned. However, some common materials may include model planes, paper, rulers, stopwatches, and other items to measure and track flight. You may also need materials for constructing and testing different wing shapes and sizes.

How can you ensure safety in a lab about flight?

Safety is a crucial aspect of any lab, including those focused on flight. To ensure safety, it is essential to follow all safety guidelines and protocols, such as wearing protective gear and handling materials carefully. It is also crucial to have a designated area for testing and to supervise the lab closely to prevent accidents. Additionally, it is essential to have an emergency plan in place in case of any mishaps.

What are some potential experiments for a lab about flight?

There are many different experiments that you can conduct in a lab about flight. Some potential experiments include testing the effects of wing shape and size on flight distance, comparing the flight patterns of different types of paper airplanes, and analyzing the impact of weight on flight time. You could also investigate the role of air pressure and resistance in flight or explore the principles of lift and drag.

How can you make a lab about flight engaging and interactive?

To make a lab about flight more engaging and interactive, you can incorporate hands-on activities and experiments that allow students to actively participate and explore the concepts. You can also include demonstrations, videos, and simulations to supplement the experiments and make the lab more interactive. Additionally, promoting group work and discussions can enhance engagement and encourage students to think critically about the principles of flight.

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