+ G) [ll {13 Pageview I A'Ehadtualml Addtextbl V Draw v i5! 2. A hiker used a compass to orient himself as he walked 3.00 km in a direction 500' north of west. and then an additional 2.00 km in a direction 20.0' south of west. The trip took 1.25 hours. Calculate the magnitude and direction of the hiker's velocity of the hiker using vector components . (RU, Ti) 3. Randall is able to paddle his canoe at 2.0 m/s in still water. He drops the canoe into a river which ls owing north at 15 m/s. Draw sketches showing how to determine the direction of the magnitude and direction of the velocity of the canoe relative to the Earth using vector addition (KU): a. if he paddles north ; b. if the paddles south c. if he paddles east 4. Lindsay is planning a flight from St. Catherines to Hamilton, which lies due west of St. Catharines. '_ Her aircraft les at a speed of 200 km/h in still air. A wind of 50.0 km/h is blowing from [W 600' N]. In what direction must she aim the airplane to y directly to Hamilton? (KuxTi) 5. Complete each of the questions below. Show all your steps and work. (TI) a. An oil tanker sailing west has an engine problem. it coasts to a stop in 0.50 h, moving 10 km in a straight line. Calculate the average acceleration of the ship, In meters per second squared (m/szi. b. A ball launcher on the ground is aimed straight up, and it. launches a baseball with an initial veiocity of 49.0 m/s [up]. The ball continues upward to a stop, and then falls until caught by a player leaning out ofa window 73.4 m above the ground. How long is. the ball in the air before the player catches it? 6. Vector if has a length of 10 units and points north. Vector E has a length of 24 units and points east. Draw a sketch showing how to determine the direction of each of the vectors below from the vectors A' and 5. No caimlations required! [KU'j a A 3. xi _ b. E 7. Sally road her motorcycle [E 40.0\" S] at 60.0 km/h. She then turn-ed to adlrectlon of [E 25.0\" N] and increased her speed to 80.0 krn/h over 2.3 minutes. Caimiate- the magnitude and direction of the motorcycle's acceleration in km/h/mlnute. (KU, Ti) 8. An archer releases an arrow at a speed of 30.0 m/s at an angle of 40.0\" above the horizontal. 1.63 seconds later, the arrow struck the target at the same height above the ground as the launch point. Calculate how far the target 15 the archer (KU, Tl)