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Chapter 6: Q. 47 (page 156)

A truck with a heavy load has a total mass of $7500$ kg. It is climbing a $15 掳$ incline at a steady $15$ m/s when, unfortunately, the poorly secured load falls off! Immediately after losing the load, the truck begins to accelerate at $1.5$ m/s². What was the mass of the load? Ignore rolling friction.

Short Answer

Expert verified

Mass of the load is $2800$ Kg

Step by step solution

01

Step 1. Given Information

Total load of truck $m + M = 7500$ Kg

Mass of load $= M$

Mass of truck $= m$

Incline of the shape $胃 = 15 掳$

Speed of truck with load $v = 15$ m/s

Acceleration of truck without load $a = 1.5$ m/s

02

Step 2. Find the mass of the Load

We need to determine the mass of the load by ignoring the fact that rolling friction is there.

Refer force identification diagram below

Truck force $= T$

when a load is there

localid="1647674523836" $F_{G} \sin 胃 = T (m + M) g \sin 胃 = T$

when the load falls:

localid="1647674538677" $T - F_{G} \sin 胃 = F_{n e t} T = F_{n e t} + F_{G} \sin 胃 T = m a + m g \sin 胃鈬� (m + M) g \sin 胃 = m a + m g \sin 胃 7500 脳 9.8 脳 \sin 15 掳 = m (1.5 + 9.8 脳 \sin 15 掳) m = \frac{19023.2}{4.04}$

localid="1647674555126" $m = 4712.88$ kg

localid="1647674569546" $M = 7500 - m M = 7500 - 4712.88$

localid="1647674575808" $M = 2787$ Kg

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Most popular questions from this chapter

An object moving in a liquid experiences a linear drag force: ${\overset{鈫�}{F}}_{drag} = (b v$ , direction opposite to the motion), where $b$ is a constant called the drag coefficient. For a sphere of radius $R,$ the drag constant can be computed as $b = 6 蟺畏 R$ , where $畏$ is the viscosity of the liquid.

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