HW 7-2: (201) 1; SQ 4; (201) 2; (203) 1*; (216) 17, 22; SQ 5
Supp#4. Using your answer from problem 1 from page
201 calculate the maximum distance the astronaut can be
from the shuttle when the line breaks in order to return to
the craft within 60.0s.
HW 7-2: (201) 1; SQ 4; (201) 2; (203) 1*; (216) 17, 22; SQ 5
HW 7-2: (201) 1; SQ 4; (201) 2; (203) 1*; (216) 17, 22; SQ 5
*Note on part a and c:
calculate the final velocity. !
HW 7-2: (201) 1; SQ 4; (201) 2; (203) 1*; (216) 17, 22; SQ 5
(203) 1
*Note on part a and c:
calculate the final velocity. !
HW 7-2: (201) 1; SQ 4; (201) 2; (203) 1*; (216) 17, 22; SQ 5
(203) 1
HW 7-2: (201) 1; SQ 4; (201) 2; (203) 1*; (216) 17, 22; SQ 5
Supp#5. A)er being struck by a bowling ball, a 1.5 kg bowling pin moving to the right at 3.0
m/s collides head-on with another 1.5 kg bowling pin iniCally at rest. Find the final velocity
of the second pin in the following situaCons:
a. the first pin moves to the right a)er the collision at 0.5m/s.
b. the first pin stops moving when it hits the second pin.