Suppose that during each step, the leg of a student swings through a total distance of...
Suppose that during each step, the leg of a student swings through a total distance of 2.2 m. At the end of the swing, this foot rests on the ground for 0.2 s before the other leg begins its swing. The length of the leg, from hip to heel, is 0.95 m.
Part A: At what speed does this student walk? (Think carefully about how far forward the student moves at each step.) Express your answer with the appropriate units.
Part B: The swinging leg reaches its maximum speed at the bottom of its arc. How many times faster is this maximum leg speed (measured with respect to the ground) than the average walking speed?
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Suppose that during each step, the leg of a student swings
through a total distance of...
Suppose that during each step, the leg of a student swings through a total distance of...
Suppose that during each step, the leg of a student swings through a total distance of 2.2 m. At the end of the swing, this foot rests on the ground for 0.2 s before the other leg begins its swing. The length of the leg, from hip to heel, is 0.90 m. (a) At what speed does the student walk? (b) The swinging leg reaches its maximum speed at the bottom of its arc. How many times faster is this...
An elephant's legs have a reasonably uniform cross section from top to bottom, and they are...
An elephant's legs have a reasonably uniform cross section from top to bottom, and they are quite long, pivoting high on the animal's body. When an elephant moves at a walk, it uses very little energy to bring its legs forward, simply allowing them to swing like pendulums. For fluid walking motion, this time should be half the time for a complete stride; as soon as the right leg finishes swinging forward, the elephant plants the right foot and begins...
please guys this is one question with 2 parts. A student sits on a freely rotating...
please guys this is one question with 2
parts.
A student sits on a freely rotating stool holding two dumbbells, each of mass 3.05 kg (see figure below). When his arms are extended horizontally (Figure a), the dumbbells are 1.07 m from the axis of rotation and the student rotates with an angular speed of 0.740 rad's. The moment of inertia of the student plus stool is 2.57 kg: m2 and is assumed to be constant. The student pulls the...
It is said that walking at a comfortable speed
2. It is said that walking at a comfortable speed involves a pendulum-like motion of your legs. We want to see how good this claim is quantitatively. (A) First we are going to predict your gait. The legs are not a SIMPLE pendulum, in that all the mass is not concentrated at your foot, but is distributed. For such a pendulum the period T is given by the equation T = 2π √(I/mgL) where I is the moment of inertia. ...
Pendulum Clocks Are Very Important...
1. Pendulum clocks are very important for the history of exploration. Accurate time was the best way to determine one's longitude, since the time of sunrise or sunset depends sensitively on your longitude. In this regard, the great enemy of accuracy was thermal expansion of the pendulum used for the chronometer. We are considering a large mass attached at the end of a brass rod. The mass at the end is much greater than the mass of the rod, so we...
(non calculus based physics) Question 1 An Olympic weight lifter lifts an 1800 N set of...
(non calculus based physics) Question 1 An Olympic weight lifter lifts an 1800 N set of weights from the ground to a vertical distance of 2.20 m above his head. Assuming he moves the weights at constant speed, how much work does the weight lifter do? Question 2 A 4.5 kg trunk, initially at rest, takes 2.0 s to slide 2.8 m down a rough 25° slope. Calculate: the work performed by the force of gravity. the amount of mechanical...
please guys this is one question with 2
parts.
A student sits on a freely rotating stool holding two dumbbells, each of mass 3.05 kg (see figure below). When his arms are extended horizontally (Figure a), the dumbbells are 1.07 m from the axis of rotation and the student rotates with an angular speed of 0.740 rad's. The moment of inertia of the student plus stool is 2.57 kg: m2 and is assumed to be constant. The student pulls the...
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