The sports car of center of mass at G a mass of 2 Mg shown in the figure below is traveling at a constant acceleration of ag = 1.59 m/s². Neglect the mass of the wheels. The coefficient of friction between the wheels and the road is = 0.25. If the engine of the car only drives the rear wheels, whereas the front wheels are free rolling, determine the normal reactions exerted road on the pairs of the wheels at A and at B. A-1.25 m+ 0.3 m B -0.75 m Select one: OA N₁-8.66 kN, and Ne 10.92 kN 2.7 kN OB NA 16.88 KN, and Ns OC NA 10.88 kN, and Ne 8.7 KN OD. NA 6.88 kN. and Ne = 12.7 KN

Elements Of Electromagnetics
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The sports car of center of mass at G a mass of 2 Mg shown in the figure below is traveling at a constant acceleration of ag = 1.59 m/s². Neglect the mass of the wheels. The coefficient of
friction between the wheels and the road is = 0.25. If the engine of the car only drives the rear wheels, whereas the front wheels are free rolling, determine the normal reactions exerted
road on the pairs of the wheels at A and at B.
A-1.25m+
0.3 m
B
-0.75 m
Select one:
OA N₁= 8.66 kN, and Ne
10.92 kN
OB NA 16.88 kN, and Ng
2.7 kN
OC NA
10.88 kN, and Ng
8.7 kN
OD. NA 6.88 kN, and Ne = 12.7 KN
The 200-mm-radius brake drum is attached to a larger flywheel. The total mass moment of inertia of the flywheel and drum is 19 kg.m² and the coefficient of kinetic friction between the dr
Transcribed Image Text:The sports car of center of mass at G a mass of 2 Mg shown in the figure below is traveling at a constant acceleration of ag = 1.59 m/s². Neglect the mass of the wheels. The coefficient of friction between the wheels and the road is = 0.25. If the engine of the car only drives the rear wheels, whereas the front wheels are free rolling, determine the normal reactions exerted road on the pairs of the wheels at A and at B. A-1.25m+ 0.3 m B -0.75 m Select one: OA N₁= 8.66 kN, and Ne 10.92 kN OB NA 16.88 kN, and Ng 2.7 kN OC NA 10.88 kN, and Ng 8.7 kN OD. NA 6.88 kN, and Ne = 12.7 KN The 200-mm-radius brake drum is attached to a larger flywheel. The total mass moment of inertia of the flywheel and drum is 19 kg.m² and the coefficient of kinetic friction between the dr
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