FUND OF AERODYNAMICS(LLF) +CONNECT (1YR)
6th Edition
ISBN: 9781265141387
Author: Anderson
Publisher: MCG
expand_more
expand_more
format_list_bulleted
Concept explainers
Videos
Textbook Question
Chapter 5, Problem 5.8P
In Problem 1.19 we noted that the Wright brothers, in the design of their 1900 and 1901 gliders, used aerodynamic data from the Lilienthal table given in Figure 1.65. They chose a design angle of attack of 3 degrees, corresponding to a design lift coefficient of 0.546. When they tested their gliders at Kill Devil Hills near Kitty Hawk, North Carolina, in 1900 and 1901, however, they measured only one-third the amount of lift they had originally calculated on the basis of the Lilienthal table. This led the Wrights to question the validity of Lilienthal’s data, and this cast a pall on the Lilienthal table that has persisted to the present time. However, in Reference 58 this author shows that the Lilienthal data are reasonably valid, and that the Wrights misinterpreted the data in the Lilienthal table in three respects (see pages 209—216 of Reference 58). One of these respects was the difference in aspect ratio. The Wrights’ 1900 glider had rectangular wings with an aspect ratio of 3.5, whereas the data in the Lilienthal table were taken with a wing with an ogival planform tapering to a point at the tip and with an aspect ratio of 6.48. The Wrights seemed not to appreciate the aerodynamic importance of aspect ratio at the time, and even if they had, there was no existing theory that would have allowed them to correct the Lilienthal data for their design. (Prandtl’s lifting line theory appeared 18 years later.) Given just the difference in aspect ratio between the Wrights’ glider and the test model used by Lilienthal, what value of lift coefficient should the Wrights have used instead of the value of 0.546 they took straight from the table? (Note: There are two other misinterpretations by the Wrights that resulted in their calculation of lift being too high; see Reference 58 for details.)
Expert Solution & Answer
Want to see the full answer?
Check out a sample textbook solution
Students have asked these similar questions
In (Figure 1), take m₁ = 4 kg and mB = 4.6 kg.
Determine the z component of the angular momentum Ho of particle A about point O.
Determine the z component of the angular momentum Ho of particle B about point O. Suppose that
5 m
8 m/s
4 m
1.5 m
4 m
B
MB
1 m
2 m
5
30°
6 m/s
MA
The two disks A and B have a mass of 4 kg and 6 kg,
respectively. They collide with the initial velocities shown. The
coefficient of restitution is e = 0.75. Suppose that
(VA)1 = 6 m/s, (VB)₁ = 7 m/s. (Figure 1)
Determine the magnitude of the velocity of A just after impact.
Determine the angle between the x axis and the velocity of A just after impact, measured clockwise from the negative x axis.
Determine the magnitude of the velocity of B just after impact.
Determine the angle between the x axis and the velocity of B just after impact, measured clockwise from the positive x axis.
(VB)1
B
(VA)1
60°
Line of impact
A hot plane surface is maintained at 100°C, and it is exposed to air at 25°C.The combined heat transfer coefficient between the surface and the air is 25W/m²·K. (same as above). In this task, you are asked to design fins to cool asurface by attaching 3 cm-long, 0.25 cm-diameter aluminum pin fins (thermalconductivity, k = 237 W/m·K) with a center-to-center distance of 0.6 cm. (Tip:do not correct the length). Determine the rate of heat transfer from thefinned structure to the air for a 1 m x 1 m section of the plate.
Chapter 5 Solutions
FUND OF AERODYNAMICS(LLF) +CONNECT (1YR)
Ch. 5 - Consider a vortex filament of strength in the...Ch. 5 - Consider the same vortex filament as in Problem...Ch. 5 - The measured lift slope for the NACA 23012 airfoil...Ch. 5 - The Piper Cherokee (a light, single-engine general...Ch. 5 - Consider the airplane and flight conditions given...Ch. 5 - Consider a finite wing with an aspect ratio of 6....Ch. 5 - Repeat Problem 5.6, except for a lower aspect...Ch. 5 - In Problem 1.19 we noted that the Wright brothers,...Ch. 5 - Consider the Superrnarine Spitfire shown in Figure...Ch. 5 - If the elliptical wing of the Spitfire in Problem...
Additional Engineering Textbook Solutions
Find more solutions based on key concepts
CONCEPT QUESTIONS
15.CQ3 The ball rolls without slipping on the fixed surface as shown. What is the direction ...
Vector Mechanics for Engineers: Statics and Dynamics
The job of the _____ is to fetch instructions, carry out the operations commanded by the instructions, and prod...
Starting Out With Visual Basic (8th Edition)
Porter’s competitive forces model: The model is used to provide a general view about the firms, the competitors...
Management Information Systems: Managing The Digital Firm (16th Edition)
How are relationships between tables expressed in a relational database?
Modern Database Management
17–1C A high-speed aircraft is cruising in still air. How does the temperature of air at the nose of the aircra...
Thermodynamics: An Engineering Approach
Knowledge Booster
Learn more about
Need a deep-dive on the concept behind this application? Look no further. Learn more about this topic, mechanical-engineering and related others by exploring similar questions and additional content below.Similar questions
- Heat is generated uniformly in a 4 cm-diameter, 16-cm long solid bar (k=2.4 W/m-K). The temperaturesat the center and at the surface of the bar are measured to be 210 oC and 45 oC, respectively. Calculatethe rate of heat generation within the bar. Solve the relevant energy balance equation and the boundaryconditions to calculate the rate of heat generation within the bar. (6 pts)arrow_forwardA hot plane surface is maintained at 100°C, and it is exposed to air at 25°C. The combined heat transfercoefficient between the surface and the air is 25 W/m²·K. You are tasked with designing an insulatingmaterial to cover the surface in order to reduce the heat transfer rate by 90%, meaning only 10% of theheat transfer would occur compared to the situation without insulation. The available insulating materialhas a thermal conductivity of 0.093 W/m·K. Assuming that the heat transfer coefficient and the surface/airtemperatures remain constant, calculate the required thickness of the insulating material in centimeters.arrow_forwardThe euler parameter in the image describes the orientation of N in the reference frame of U. How do I find the euler parameters that describe the orientation of U in the reference frame of N from the given information in the image.arrow_forward
- Fpull Ө A person, weighing 155 lb, is being lifted by a rope thrown. over a tree branch as shown (drawing not to scale). If the static coefficient of friction between the rope and the tree branch is us = 0.67, and the 0 = 45°. Determine the pulling force required to start lifting the person and the pulling force required to keep the person from falling? Pulling force to lift the person: Pulling force to keep the person from falling: lb lbarrow_forwardThe car weighs 1630 lbs and drives up the hill at a constant speed. Assuming the static friction coefficient between the wheels and the road is μs = 0.64, determine the steepest angle that the car can climb without slipping if it is.... a.) rear wheel drive b.) front wheel drive c.) four wheel drive a C CC ①⑧ BY NC Dr. Jacob Moore Values for dimensions on the figure are given in the following table. Note the figure may not be to scale. Variable Value a 8.75 ft b 3.325 ft C 1.66 ft a.) The steepest angle for rear wheel drive is 0 max degrees. b.) The steepest angle for front wheel drive is Omax degrees. c.) The steepest angle for four wheel drive is Omax degrees. = = =arrow_forwardFor the structure below, each member of the truss will safely support a tensile force of 3 kN and a compressive force of 1 kN. Determine the largest mass m that can be safely suspended. Hint: First work through this algebraically to find the forces in each member terms of the mass "m" to determine the largest stress member. 1 m t 1 m 1 m 1m + 1m E B 1977 marrow_forward
- Block A has a mass of 34 kg and block B has a mass of 41 kg. The two blocks are stacked on the ramp with an incline of Ꮎ 0 = 15.4°. Determine the largest horizontal force F that can be applied to block B without either block moving for each of the following two cases: a.) The friction coefficient for the contact between blocks A and B is μs1 0.56 and the friction coefficient for the = contact between block A and the ramp is μs2 = 0.34. b.) The friction coefficient for the contact between blocks A and B is 1 = 0.56 and the friction coefficient for the contact between block A and the ramp is μs2 = 0.17. Ꮎ F B A Part a) The limiting slip condition occurs at Select an answer CC BY NC SA 2016 Eric Davishahl The maximum force before either block A or B slips is N Part b) The limiting slip condition occurs at Select an answer The maximum force before either block A or B slips is Narrow_forwardThe crane truck has a weight of 11000 lb and a center of gravity at point . The parking brake only locks the rear wheels of the truck, so the front wheels are free to rotate. Determine the maximum force F applied at the angle = 0 30.5° that can be exerted on the crane without it slipping or tipping for each of the following cases: Case 1: The static friction coefficient between the rear tires and the ground is μ. = 0.050. ა Case 2: The static friction coefficient between the rear tires and the ground is μα == 0.33. d CGD 口 BY NC SA F 2013 Michael Swanbom кажо с Values for dimensions on the figure are given in the following table. Note the figure may not be to scale. Variable Value a 5.5 ft b 9 ft C 4 ft 3 ft 10 ft d h For Case 1, the constraint is Select an answer F = lbs. шал For Case 2, the constraint is Select an answer F пал lbs. and andarrow_forwardYou are leaning your 5.0 ft, 15.0 lb ladder against the wall in your garage. There are 2 rubber foot paddles on the bottom of the ladder, and your garage floor is concrete. The static friction between the rubber and concrete is μs = 0.580. What is the maximum distance from the wall to the rubber foot paddles, which you can lean your ladder without it slipping? Assume the wall is smooth. S The maximum distance = ftarrow_forward
- Instructions. "I have written solutions in text form, but I need experts to rewrite them in handwriting from A to Z, exactly as I have written, without any changes."arrow_forwardPearson eText Study Area mylabmastering.pearson.com Access Pearson P Pearson MyLab and Mastering Problem 14.78 P Course Home b Answered: HW_02.pdf EE 213-01 > Assignments HW_#... 2 of 8 Document Sharing User Settings The spring has a stiffness k = 200 N/m and an unstretched length of 0.5 m. It is attached to the 4.6-kg smooth collar and the collar is released from rest at A. Neglect the size of the collar. (Figure 1) Part A Determine the speed of the collar when it reaches B. Express your answer to three significant figures and include the appropriate units. Figure 1 of 1 με VB = Value Units Submit Request Answer Provide Feedback ? Review Next >arrow_forwardPearson eText Study Area Access Pearson mylabmastering.pearson.com P Pearson MyLab and Mastering Problem 15.79 P Course Home b Answered: HW_02.pdf EE 213-01 > Assignments HW_#... 6 of 8 > Document Sharing User Settings The two disks A and B have a mass of 4 kg and 5 kg, respectively. They collide with the initial velocities shown. The coefficient of restitution is e = 0.65. Suppose that (VA)1 = 6 m/s, (VB)1 = 8 m/s. (Figure 1) Part A Determine the magnitude of the velocity of A just after impact. Express your answer to three significant figures and include the appropriate units. Figure 1 of 1 μÅ (VA)2 = Value Units Submit Request Answer Part B ? Review Determine the angle between the x axis and the velocity of A just after impact, measured clockwise from the negative x axis. Express your answer in degrees to three significant figures. ΕΠΙ ΑΣΦ vec 01 Submit Request Answer Part C ? Determine the magnitude of the velocity of B just after impact. Express your answer to three significant…arrow_forward
arrow_back_ios
SEE MORE QUESTIONS
arrow_forward_ios
Recommended textbooks for you
Principles of Heat Transfer (Activate Learning wi...Mechanical EngineeringISBN:9781305387102Author:Kreith, Frank; Manglik, Raj M.Publisher:Cengage Learning
Principles of Heat Transfer (Activate Learning wi...
Mechanical Engineering
ISBN:9781305387102
Author:Kreith, Frank; Manglik, Raj M.
Publisher:Cengage Learning
composite-materials; Author: Tonya Coffey;https://www.youtube.com/watch?v=Vu6ik-bcKf4;License: Standard youtube license