A figure skater glides along a circular path of radius 5.10 m. If she coasts around one half of the circle, find the following.
(a)her distance (in m) from the starting location
(b)the length (in m) of the path she skated
A figure skater glides along a circular path of radius 5.10 m. If she coasts around...
18. (-/2.5 Points] DETAILS SERCP11 1.10.P.064. A figure skater glides along a circular path of radius 5.10 m. If she coasts around one half of the circle, find the following. HINT (a) her distance in m) from the starting location m (b) the length (in m) of the path she skated m Need Help? Read it Watch it
A figure skater glides along a circular path of radius 4.00 m. If she coasts around one half of the circle, find the following. 1. her distance __m 2. her length ___m
1. A figure skater glides along a circular path of radius 5.28m. (a) If she coasts around one half of the circle, find the magnitude of the displacement vector. (SI unit: m) (b) If she coasts around one half of the circle, find what distance she skated. (SI unit: m) (c) What is the magnitude of the displacement if she skates all the way around the circle? (SI unit:m) 2. A novice golfer on the green takes three strokes to...
Submit Answer Save Pr ogress Practice Another Version . -133.34 points SercP11 1.10 P 064 A figure skater glides along a circular path of radius 4.60 m. If she coasts around one half of the cirdle, find the following. HINT (a) her distance (In m) from the starting location (b) the length (in m) of the path she skated Need Help? ReadItWstch It
a 107 - kg skater with an initial speed of v=55 m/s coasts up a H=13-m-high rise as shown in the figure. The slope angle is theta=55. what is her final speed at the top? Assume the coefficient of friction between her skateboard and the ground is .185 (hint: find the distance traveled up the incline assuming a straight-line path as shown in the figure.) Use g=10 m/s^2
Darcy and Wilhelmina now tackle a homework problem. An ice skater of mass m = 60 kg coasts at a speed of v = 0.71 m/s past a pole. At the distance of closest approach, her center of mass is r1= 0.37 m from the pole. At that point she grabs hold of the pole. (A) What is the skater's angular speed when she first grabs the pole? _______ rad/s (B) What is the skater's angular speed after she now pulls her center of...
An airplane in a holding pattern flies at constant altitude along a circular path of radius 3.30 km. If the airplane rounds half the circle in 176 s, determine the following. a) Determine the magnitude of the airplane's displacement during the given time (in m). _____ m (b) Determine the magnitude of the airplane's average velocity during the given time (in m/s). ____ m/s (c) What is the airplane's average speed during the same time interval (in m/s)? ____ m/s
An airplane in a holding pattern flies at constant altitude along a circular path of radius 3.10 km. If the airplane rounds half the circle in 130 s, determine the following. (a) Determine the magnitude of the airplane's displacement during the given time (in m). __________m (b) Determine the magnitude of the airplane's average velocity during the given time (in m/s). ____________m/s (c) What is the airplane's average speed during the same time interval (in m/s)? ______________ m/s
An airplane in a holding pattern flies at constant altitude along a circular path of radius 3.46 km. If the airplane rounds half the circle in 174 s, determine the following. (a) Determine the magnitude of the airplane's displacement during the given time (in m) (b) Determine the magnitude of the airplane's average velocity during the given time (in m/s). (c) What is the airplane's average speed during the same time interval (in m/s)?
An airplane in a holding pattern flies at constant altitude along a circular path of radius 3.38 km. If the airplane rounds half the circle in 148 s, determine the following. (a) Determine the magnitude of the airplane's displacement during the given time (in m). (b) Determine the magnitude of the airplane's average velocity during the given time (in m/s) (c) What is the airplane's average speed during the same time interval (in m/s)?