Assume that a, = 1.45 m with a wheel base (distance between A and B) of 2.5 m for a total mass of 1480 kg and calculate the reaction of the set of front and rear wheels when the car is at rest. • Front wheels: Ffo N and • Rear wheels : Fro N ; A sudden accelerating thrust F; is applied, taking vehicle from 0 to 96 km/h in 9 s and then the driver maintains the constant speed on 96 km/h. An average aerodynamic drag force of 450 N is applied at (CP), ya = 60 cm above the ground level during acceleration. The centre of the gravity (CG) is 50 cm above ground. Analyze the dynamics during acceleration and calculate, The acceleration of the vehicle ms-2, • The acceleration thrust is F; %3D And the vertical reactions on wheels during acceleration are respectively, Ffa = N, on the set of front wheels and Fra N on rear wheels

Assume that a, = 1.45 m with a wheel base (distance between A and B) of 2.5 m for a total mass of 1480 kg and calculate the reaction of the set of front and rear wheels when the car is at rest. • Front wheels: Ffo N and • Rear wheels : Fro N ; A sudden accelerating thrust F; is applied, taking vehicle from 0 to 96 km/h in 9 s and then the driver maintains the constant speed on 96 km/h. An average aerodynamic drag force of 450 N is applied at (CP), ya = 60 cm above the ground level during acceleration. The centre of the gravity (CG) is 50 cm above ground. Analyze the dynamics during acceleration and calculate, The acceleration of the vehicle ms-2, • The acceleration thrust is F; %3D And the vertical reactions on wheels during acceleration are respectively, Ffa = N, on the set of front wheels and Fra N on rear wheels

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

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Concept explainers

Power Transmission Elements

It is defined as the energy transfer from one location to another location. The energy will start moving from the energy generation source to the energy applied position to obtain the work output. From this method, a large amount of electric energy moves from the power station to various electrical substations.

Question

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08:48 0 0•
O # l alli
Assume that xr = 1.45 m with a wheel base
(distance between A and B) of 2.5 m for a total
mass of 1480 kg and calculate the reaction of
the set of front and rear wheels when the car is
at rest.
• Front wheels: F =
N and
fo
• Rear wheels : Fro =
N ;
A sudden accelerating thrust F; is applied,
taking vehicle from 0 to 96 km/h in 9 s and
then the driver maintains the constant speed
on 96 km/h. An average aerodynamic drag
force of 450 N is applied at (CP), Yd = 60 cm
above the ground level during acceleration. The
centre of the gravity (CG) is 50 cm above
ground. Analyze the dynamics during
acceleration and calculate,
The acceleration of the vehicle
ms-2,
• The acceleration thrust is F;
And the vertical reactions on wheels during
acceleration are respectively,
Fja
N, on the set of front
fa =
wheels and
• Fra
N on rear wheels

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