Vector Mechanics For Engineers
Vector Mechanics For Engineers
12th Edition
ISBN: 9781259977305
Author: BEER, Ferdinand P. (ferdinand Pierre), Johnston, E. Russell (elwood Russell), Cornwell, Phillip J., SELF, Brian P.
Publisher: Mcgraw-hill Education,
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Chapter 13, Problem 13.190RP

34,000-Ib airplane lands on an aircraft carrier and is caught by an arresting cable. The cable is inextensible and is paid out at A and Bfrom mechanisms located below deck and consisting of pistons moving in long oil-filled cylinders. The piston-cylinder system is designed to maintain a constant tension in the cable. Knowing that the landing speed is 110 mi/h and the airplane travels a distance d = 90 ft after being caught, determine the tension in the cable.

Chapter 13, Problem 13.190RP, 34,000-Ib airplane lands on an aircraft carrier and is caught by an arresting cable. The cable is

Expert Solution & Answer
Check Mark
To determine

The tension in the cable.

Answer to Problem 13.190RP

The tension in the cable is Q=111596.9lb=111.6kips

Explanation of Solution

Given information:

Vector Mechanics For Engineers, Chapter 13, Problem 13.190RP

Weight of airplane is equal to 34000lb

Landing speed is equal to 110mi/h

Travel distance is equal to d=90ft

The kinetic energy of a particle is defined as:

T=12mv2

Principle of work and energy is defined as:

U12=T2T1

Above equation states “If a particle moves from A1 to A2 under an action of force F, the work of the force F is equal to the change in kinetic energy.”

Calculation:

Find the mass of airplane,

m=Wg=34000lb32.2ft/s2=1055.9lb.s2/ft

The cable tension acts parallel to the cable at the airplane hook.

We know that, the tension Q is constant.

Therefore,

U12=Q[AC¯+BC¯AB¯]

Find AC¯.

AC¯=BC¯=352+902=96.566ft

Therefore,

U12=Q[96.566ft+96.566ft70ft]=123.132Q

Apply principle of work and energy:

U12=T2T1

Substitute,

U12=T2T1123.132Q=012mv2

Convert,

v=110mi/h=161.33ft/s

Substitute and solve to find tension.

123.132Q=012(1055.9lb.s2/ft)(161.33ft/s)2Q=111596.9lb

Convert,

Q=111596.9lb=111.6kips

Conclusion:

The tension in the cable is calculated by putting the values of velocity and height in an equation.

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Chapter 13 Solutions

Vector Mechanics For Engineers

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