47. An archer pulls the bowstring back for a distance of 0.470 m before releasing the...
When an archer pulls an arrow back in his bow, he is storing potential energy in the stretched bow. (a) Compute the potential energy stored in the bow, if the arrow of mass 5.05 10-2 kg leaves the bow with a speed of 32.0 m/s. Assume that mechanical energy is conserved. (b) What average force must the archer exert in stretching the bow if he pulls the string back a distance of 30.0 cm?
An archer pulls her bowstring back 0.400 m by exerting a force that increases linearly from zero to 230 N. How much work does the archer do on the string while drawing the bow?
An archer, about to shoot an arrow, is applying a force of +330 N to a drawn bowstring. The bow behaves like an ideal spring whose spring constant is 510 N/m. What is the displacement of the bowstring? ______________m
An archery bow is drawn a distance d 0.28 m and loaded with an arrow of mass m a spring with a spring constant of k 154 N/m, and the arrow flies with negligible air resistance. To simplify your work, let the 0.084 kg. The bow acts as gravitational potential energy be zero at the initial height of the arrow. 220 Part (a) How fast, in meters per second, will the arrow be traveling as it leaves the bow? aila...