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Chapter 4 Two-Dimensional
Kinematics
©James Walker, Physics, 3rd Ed. Prentice Hall
Chapter 4: Two-Dimensional Kinematics
Motion in the x direction is independent from motion in the y direction. We use the same equations from Chapter 2, but for each dimension separately.
There are not really any new equations in this chapter.
Webassign Problem 2
A sailboat runs before the wind with a constant speed of 1.7 m/s in a direction 41.1° north of west.
(a) How far West has the sailboat traveled in 23 min?
(b) How far North has the sailboat traveled in 23 min?
1.77 km
1.54 km
Starting from rest, a car accelerates at 2.4 m/s2 up a hill that is inclined 5.5° above the horizontal. How far horizontally and vertically has the car traveled in 13 s? x=202 m y=19.4 m
Webassign Problem 3
Projectile Motion
• Assume that acceleration of gravity is constant, downward and has a magnitude of g = 9.81 m/s2
• We ignore: Air resistance The Earth’s rotation The variation of gravity as a function of distance from
the center of the earth
Horizontal velocity is constant: ax = 0
Vertical motion governed only by constant acceleration of gravity
Motion of a Projectile Launched Horizontally
The dots represents the position of the object every 0.05 s.
t = 1 s
yi = 8 m; xi = 0viy = 0; vix = 6 m/say = -9.81 m/s2; ax = 0
1. Verify the position of the object at t = 1s.
2. What would be the position of the object at t = 1s if it were dropped (vix = 0)?
Webassign problem 7
Playing shortstop, you pick up a ground ball and throw it to second base. The ball is thrown horizontally, with a speed of 18 m/s, directly toward point A. When the ball reaches the second baseman 0.45 s later, it is caught at point B. (Neglect air resistance.)
(a) How far were you from the second baseman?
(b) What is the distance of vertical drop, AB?
x=8.1 m
0.993 m
General Launch Angle
Consider an object launched from the origin at an angle with respect to the horizontal.
Find the x and y components of the initial velocity vector.
Walker, Problem 37On a hot summer day a young girl swings on a rope above the local swimming hole. When she lets go of the rope her initial velocity is 2.45 m/s at an angle of 35.0° above the horizontal. If she is in flight for 1.60 s, how high above the water was she when she let go of the rope?
What is her acceleration at the top of her trajectory?
What is her velocity as she hits the water.
y=10.3 m
9.81 m/s/s
Vx = 2 m/s, Vy = -14.3 m/sV = 14.4 m/s
Range
The range R of a projectile is the horizontal distance it travels before landing.
assuming same initial and final elevation
What angle results in the maximum range?
2g
vR
2i sin
Range (unequal heights)
sin ,cos
,
iiyiix
ii
vvvv
hy0x
tvRange ix
Maximum Height
The maximum height (and therefore the “hang time”) of a projectile depends only on the vertical component of its initial velocity.
At ymax, the vertical velocity vy is zero.
g2
vy
yg2v0
ya2vv
22i
22i
2iy
2y
sin
)(sin
max
max
Conceptual Question 1
Three projectiles (a, b and c) are launched with the same initial speed but with different launch angles, as shown. List the projectiles in order of increasing (a) horizontal component of initial velocity and (b) time of flight
(a) A > B > C
(b) C > B > A
Three projectiles (a, b and c) are launched with different initial speeds so that they reach the same maximum height, as shown. List the projectiles in order of increasing (a) initial speed and (b) time in flight.
sin
sin
iyi
2i
VV
2g
vR
Conceptual Question 2
(a) A > B > C
(b) A = B = C