A flatbed truck has a 2000.0 kg component of a pre-fab house placed on its flatbed. If the coefficient of static and kinetic friction, respectively, between the pallet and the flatbed is 0.150 and 0.100, and the truck starts at rest and accelerates to a speed of 65.0 km/h over a distance of 50.0 m. The component is strapped down by tie straps wrapped over the top of the house component so as to push down on it; with what force must the tie straps push down on the house component in order to prevent the truck from slipping while accelerating? Ans: 23.8 kN

A flatbed truck has a 2000.0 kg component of a pre-fab house placed on its flatbed. If the coefficient of static and kinetic friction, respectively, between the pallet and the flatbed is 0.150 and 0.100, and the truck starts at rest and accelerates to a speed of 65.0 km/h over a distance of 50.0 m. The component is strapped down by tie straps wrapped over the top of the house component so as to push down on it; with what force must the tie straps push down on the house component in order to prevent the truck from slipping while accelerating? Ans: 23.8 kN

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A flatbed truck has a 2000.0 kg component of a pre-fab house placed on
its flatbed. If the coefficient of static and kinetic friction, respectively,
between the pallet and the flatbed is 0.150 and 0.100, and the truck starts
at rest and accelerates to a speed of 65.0 km/h over a distance of 50.0 m.
The component is strapped down by tie straps wrapped over the top of
the house component so as to push down on it; with what force must the
tie straps push down on the house component in order to prevent the
truck from slipping while accelerating?
Ans: 23.8 kN

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