
BIO Kangaroo hopping Hopping is an efficient method of locomotion for the kangaroo (see Figure 7.18 When the kangaroo is in the air, the Earth-kangaroo system has a combination of gravitational potential energy and kinetic energy. When the kangaroo lands, its Achilles tendons and the attached muscles stretch—a form of elastic potential energy. This elastic potential energy is used along with additional muscle tension to launch the kangaroo off the ground for the next hop. In the red kangaroo, more than 50% of the total energy used during each hop is recovered elastic potential energy. This is so efficient that the kangaroo’s
The horizontal and vertical force components exerted by a firm surface on a kangaroo’s feet while it hops are shown in Figure 7.19a The vertical force
Why does the horizontal force exerted by the ground on the kangaroo change direction as the kangaroo lands and then hops forward?
a. The backward force when it lands prevents it from slipping, and the forward force when taking off helps propel it forward.
b. One horizontal force is needed to help stop the kangaroo’s fall and the other to help launch its upward vertical hop.
c. Both forces oppose the kangaroo’s motion, but one looks like it is forward because the kangaroo is moving fast.
d. The kangaroo is not an inertial reference frame, and the forward force is not real.
e. All of the above

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Chapter 7 Solutions
College Physics
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