8. Figure 7 shows a four-wheel drive car of mass m = 970 kg. The coefficients of frietion is u=0,6. Neglect the mass of the tyres. (a) Determine the greatest possible acceleration of the race car so that its front tyres do not kave the ground nor the tyres slip on the track. (b) Determine the corresponding reactions on tyres A and B. (c) From (b) above, recaleulate the coefficient of frietion. If it is not same as either the given values . or , then in one sentence, state or explain why the difference in values? G h=0.55 m A a= 1.82 m B b= 2.20 m Figure 7
8. Figure 7 shows a four-wheel drive car of mass m = 970 kg. The coefficients of frietion is u=0,6. Neglect the mass of the tyres. (a) Determine the greatest possible acceleration of the race car so that its front tyres do not kave the ground nor the tyres slip on the track. (b) Determine the corresponding reactions on tyres A and B. (c) From (b) above, recaleulate the coefficient of frietion. If it is not same as either the given values . or , then in one sentence, state or explain why the difference in values? G h=0.55 m A a= 1.82 m B b= 2.20 m Figure 7
Elements Of Electromagnetics
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ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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![8. Figure 7 shows a four-wheel drive car of mass m = 970 kg. The coefficients of friction is
H=0.6. Neglect the mass of the tyres.
(a) Determine the greatest possible acceleration of the race car so that its front tyres do not
kave the ground nor the tyres slip on the track.
(b) Determine the corresponding reactions on tyres A and B.
(c) From (b) above, recaleulate the coefficient of friction. If it is not same as either the
given values Hs or k, then in one sentence, state or explain why the difference in
values?
h=0.55 m
a= 1,82 m
b = 2.20 m
Figure 7](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fccecb0e8-c5f5-491d-aafc-22592f6f3131%2F7016d9b0-b8a3-4a42-be2f-b7fda46667c5%2Fnpqh4q_processed.jpeg&w=3840&q=75)
Transcribed Image Text:8. Figure 7 shows a four-wheel drive car of mass m = 970 kg. The coefficients of friction is
H=0.6. Neglect the mass of the tyres.
(a) Determine the greatest possible acceleration of the race car so that its front tyres do not
kave the ground nor the tyres slip on the track.
(b) Determine the corresponding reactions on tyres A and B.
(c) From (b) above, recaleulate the coefficient of friction. If it is not same as either the
given values Hs or k, then in one sentence, state or explain why the difference in
values?
h=0.55 m
a= 1,82 m
b = 2.20 m
Figure 7
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