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Equations of Uniform Accelerated Motion. Physics Mrs. Coyle. Average Velocity. v = ½ (v f +v i ). . Displacement in terms of Average Velocity and Time. d= v t d= ½ (v f + v i ) t. . How do we derive d= ½ (v f + v i )t from the graph?. v f. Velocity (m/s). v i. o. Time (s).
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Equations of Uniform Accelerated Motion Physics Mrs. Coyle
Average Velocity v = ½ (vf +vi)
Displacement in terms of Average Velocity and Time d= v t d= ½ (vf + vi) t
How do we derive d= ½ (vf + vi)t from the graph? vf Velocity (m/s) vi o Time (s) t • Hint: Area Under the Line=Displacement Δd or simply d
Displacement (d) in terms of vi , a, t d= vit + ½ at2
How do we derive d= vit + ½ at2 ? Hint: Start with d= ½ (vf + vi)t and then substitute for vf that vf = vi+at.
Final Velocity in terms of vi, a, d vf2 = vi2 + 2ad
How do we derive vf2 = vi2 + 2ad ? • Hint: Start with d= ½ (vf + vi)t and then substitute for t= (vf – vi) /a .
Equations of Motion for Uniform Accelerated Motion vf= vi+ at vavg = ½ (vf +vi) d= ½ (vf + vi)t d= vit + ½ at2 vf2 = vi2 + 2ad • d is the displacement (or Δd) • Assume that ti=0
Solving Kinematics Problems • Draw a labeled vector diagram showing the positive and negative direction. • Make a list of the givens (include signs as needed) and unkown. • Decide what equation(s) you should use. • Write the equation(s) and solve for the unknown. Always include units in your first substitution and in your final answer.
Problem 1 A rocket travelling at +95m/s is accelerated uniformly to +150m/s in 10s. What is the displacement? Answer:1,225.m
Problem 2 An airplane has a minimum take off velocity of 80m/s. How long should the runway be, if the airplane can accelerate on the ground at 3m/s2 ? Answer: 1,067m
Problem 3 An airplane landing at +100m/s, comes to a stop in 30s. • What is the acceleration? • How far did it travel on the runway before it stopped? Answer: -3.3m/s2, 1,515m