The combined mass of the person and bicycle is m. The location of their combined centre of mass is shown. (a) If they have acceleration a, what are the normal forces exerted on the wheels by the ground? Neglect the horizontal force exerted on the ground by the front wheel (b) Based on the results of part (a), what is the largest acceleration that can be achieved without causing the front wheel to leave the ground? i (‘ ) Vs S o

The combined mass of the person and bicycle is m. The location of their combined centre of mass is shown. (a) If they have acceleration a, what are the normal forces exerted on the wheels by the ground? Neglect the horizontal force exerted on the ground by the front wheel (b) Based on the results of part (a), what is the largest acceleration that can be achieved without causing the front wheel to leave the ground? i (‘ ) Vs S o

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Question

The combined mass of the person and bicycle is
m. The location of their combined centre of
mass is shown.
(a) If they have acceleration a, what are the
normal forces exerted on the wheels by the
ground? Neglect the horizontal force exerted on
the ground by the front wheel
(b) Based on the results of part (a), what is the
largest acceleration that can be achieved
without causing the front wheel to leave the
ground?

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