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Chapter 6: Q.33 (page 155)

An Airbus $A 320$ jetliner has a takeoff mass of $75, 000$ kg. It reaches its takeoff speed of $82 m / s (180 m p h)$ in $35$ s. What is the thrust of the engines? You can neglect air resistance but not rolling friction

Short Answer

Expert verified

The thrust of the engines is $190, 000 N$

Step by step solution

01

Content Introduction

The friction force is proportional to the normal force N exerted by the wall against the block.

02

Content Explanation

We are given

speed is $v = 82 m / s$ in $t = 35 s$ . This will give us acceleration of the Airbus A320 $a = \frac{v}{t} = \frac{82}{35} = 2.343 m / s^{2}$

The force measured is given by

$F = m a F = 75, 000 脳 2.343 F = 175, 714 N . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . (1)$

Rolling friction is $渭_{s} = 0.020$

Therefore, we can say the friction force measured as

$F_{f} = 渭_{s} m g F_{f} = 0.020 脳 75, 000 脳 9.81 F_{f} = 14, 715 N . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . (2)$

Add ( 1 ) and ( 2 ) to get the total force that is thrust of the engine

$F_{T} = F + F_{f} = 175, 714 + 14, 715 = 190429 鈮� 190, 000 N a p p r o x .$

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Most popular questions from this chapter

A 1500 kg car skids to a halt on a wet road where $渭_{k}$ $= 0.50$ . How fast was the car traveling if it leaves role="math" localid="1648126746388" $65 m$ -long skid marks?

A $2.0$ kg wood block is launched up a wooden ramp that is inclined at a $30 掳$ angle. The block鈥檚 initial speed is $10$ m/s.

a. What vertical height does the block reach above its starting point?

b. What speed does it have when it slides back down to its starting point?

A woman has a mass of 55 kg.

a. What is her weight while standing on earth?

b. What are her mass and her weight on Mars, where g = 3.76 m/s2 ?

A $1.0 kg$ wood block is pressed against a vertical wood wall by the $12 N$ force shown in $F I G U R E P 6.57$ . If the block is initially at rest, will it move upward, move downward, or stay at rest?

An accident victim with a broken leg is being placed traction. The patient wears a special boot with a pulley attached to the sole. The foot and boot together have a mass of 4.0 kg and the doctor has decided to hang a 6.0 kg mass from the rope. The boot is held suspended by the ropes, as shown in FIGURE P6.41, and does not touch the bed a. Determine the amount of tension in the rope by using Newton鈥檚 laws to analyze the hanging mass. b. The net traction force needs to pull straight out on the leg. What is the proper angle u for the upper rope? c. What is the net traction force pulling on the leg? Hint: If the pulleys are frictionless, which we will assume, the tension in the rope is constant from one end to the other.

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