Handout Solutions:
5.
a) delta_t = v0 sin(theta) / g
b) delta_y = (v0 sin(theta))^2/2g
6. displacement is 65.9 km at
7. x-component: 27.19 m/s, y-component: 12.67 m/s
8. 43.01 m/s at 54.46 degrees above the x-axis
9.
10.
11.
a) 1.72 seconds
b) 14.58 meters
c) double the answer in (a) of 3.44 seconds
d) 124.7 meters
12. Check your notes for these definitions.
Book problems:
Question 10. No - the magnitudes may be the same, but the directions are different. This means the velocities are not the same.
9.
a) West component: 785 km/h* sin(38.5 degrees) = 488.7 km/h (Note that this would be negative according to our usual coordinate system of positive to the right.)
North component: 785 km/h* cos(38.5 degrees) = 614.3 km/h
b)
West: 1466.1 km
North: 1842.9 km
16.
a) Vertical component of acceleration = 3.8 m/s^2 * sin(30) = 1.9 m/s^2
b) delta_y = v0y*delta_t + 1/2*ay*delta_t^2, but since she starts from rest, v0y = 0. The delta_y is the elevation change of 335 meters.
Thus delta_t = (2*delta_y/ay)^1/2 = 18.77 seconds
2 comments:
hi its sung,
for #4 i jus cant seem to get 15.6 degrees...
i keep getting 17.02 degrees
why is my answer comming out this way...
slip up of the buttons on my calculator - thanks sung. you're correct.
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