Math  /  Algebra

QuestionIn the figure, an airport luggage carrying train with a tractor (T) is pulling three luggage carts, M1M_1, M2M_2, and M3M_3, with constant velocity of 4.54.5 m/s. If T=50T = 50 kg, M1=40M_1 = 40 kg, M2=15M_2 = 15 kg, and M3=10M_3 = 10 kg (there is no friction), then the force in the connection between the tractor (T) and cart M1M_1 is:

Studdy Solution

STEP 1

What is this asking? How strong is the pull between the tractor and the first cart if the whole train is moving at a steady speed? Watch out! Don't get tricked by all the numbers!
Constant velocity means *zero* acceleration.

STEP 2

1. Visualize the forces
2. Calculate the total mass being pulled
3. Find the force

STEP 3

Imagine the train moving at a constant speed.
That means the tractor is pulling just hard enough to keep everything moving at 4.54.5 m/s.
No speeding up, no slowing down!

STEP 4

The tractor (T) is pulling *all* the carts (M1M_1, M2M_2, and M3M_3).
The force between T and M1M_1 is what's keeping those carts moving.

STEP 5

The tractor is pulling M1M_1, M2M_2, and M3M_3.
Let's add those masses together to find the **total mass** being pulled by the tractor.

STEP 6

Total Mass=M1+M2+M3 \text{Total Mass} = M_1 + M_2 + M_3 Total Mass=40 kg+15 kg+10 kg \text{Total Mass} = 40 \text{ kg} + 15 \text{ kg} + 10 \text{ kg} Total Mass=65 kg \text{Total Mass} = \mathbf{65} \text{ kg} So, the tractor is pulling a total of **65 kg** of carts!

STEP 7

Since the train is moving at a *constant* velocity, the **net force** is *zero*!
This means the force the tractor exerts is perfectly balanced by other forces (in this case, there are no other forces since we're told there's no friction).
Newton's second law tells us: F=maF = ma.

STEP 8

Since the velocity is constant, the acceleration (aa) is **zero**. F=ma F = m \cdot a F=65 kg0ms2 F = 65 \text{ kg} \cdot 0 \frac{\text{m}}{\text{s}^2} F=0 N F = \mathbf{0} \text{ N}

STEP 9

The **net force** acting on the *entire* train is zero, but we're looking for the force *between* the tractor (T) and the first cart (M1M_1).
This force is what's pulling the carts M1M_1, M2M_2, and M3M_3.

STEP 10

Since the net force on the three carts is also zero, the force between the tractor and M1M_1 must be zero.

STEP 11

The force in the connection between the tractor (T) and cart M1M_1 is 0 N\mathbf{0} \text{ N}.

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