Vectors and Two-Dimensional Motion
3-01 Vectors and Their Properties 3-02 Components of a Vector 3-04 Motion in Two Dimensions Vectors & Two-Dimensional Motion 3-05 Relative Velocity Topics Vectors and Two-Dimensional Motion (Phy 2053): vittitoe
ScalarsVectors Distance Time Mass Work Energy Speed Displacement Velocity Acceleration Force Momentum Torque Magnitude Only Magnitude and Direction Vectors ad Their Properties Vectors and Two-Dimensional Motion (Phy 2053): vittitoe
Vectors have magnitude and direction, but no place Vectors ad Their Properties Vectors and Two-Dimensional Motion (Phy 2053): vittitoe
Two vectors are equal if they have the same magnitude and the same direction Vectors ad Their Properties Vectors and Two-Dimensional Motion (Phy 2053): vittitoe
Scaling Vectors Vectors ad Their Properties s Vectors and Two-Dimensional Motion (Phy 2053): vittitoe
Scaling a Displacement Vector Vectors ad Their Properties Vectors and Two-Dimensional Motion (Phy 2053): vittitoe
Scaling a Change in Velocity Vector Vectors ad Their Properties Vectors and Two-Dimensional Motion (Phy 2053): vittitoe
Vector Addition (Graphical) Vectors ad Their Properties Vectors and Two-Dimensional Motion (Phy 2053): vittitoe
Vector Subtraction (Graphical) (A B) Vectors ad Their Properties Vectors and Two-Dimensional Motion (Phy 2053): vittitoe
x y Components of a Vector Vectors and Two-Dimensional Motion (Phy 2053): vittitoe
x y Vector Components Components of a Vector Vectors and Two-Dimensional Motion (Phy 2053): vittitoe
x y Vector Components Components of a Vector Vectors and Two-Dimensional Motion (Phy 2053): vittitoe
A B R AxAx BxBx RxRx AyAy ByBy RyRy x y Components of a Vector Vectors and Two-Dimensional Motion (Phy 2053): vittitoe
A B R AxAx BxBx RxRx AyAy ByBy RyRy x y Components of a Vector Vectors and Two-Dimensional Motion (Phy 2053): vittitoe
F2F2 22 F3F3 33 F4F4 44 F1F1 11 Components of a Vector Adding Vectors Vectors and Two-Dimensional Motion (Phy 2053): vittitoe
F1F1 F2F2 F3F3 F4F4 11 22 33 44 F 1 = 50 N 1 = 30 o F 2 = 100 N 2 = 135 o F 3 = 30 N 3 = 250 o F 4 = 40 N 4 = 300 o 10.3 34.6 Components of a Vector Vectors and Two-Dimensional Motion (Phy 2053): vittitoe
F R = 37.4 N RR Components of a Vector Vectors and Two-Dimensional Motion (Phy 2053): vittitoe
F1F1 F2F2 F3F3 F4F4 11 22 33 44 F 1 = 90 N 1 = 45 o F 2 = 80 N 2 = 150 o F 3 =50 N 3 = 220 o F 4 = 70 N 4 = 340 o Components of a Vector Add the following vectors Vectors and Two-Dimensional Motion (Phy 2053): vittitoe
Motion in Two Dimensions Vectors and Two-Dimensional Motion (Phy 2053): vittitoe
a y = g a x = 0 Motion in Two Dimensions Vectors and Two-Dimensional Motion (Phy 2053): vittitoe
Ignoring air resistance, the horizontal component of a projectile's acceleration A) is zero. B) remains a non-zero constant. C) continuously increases. D) continuously decreases. Vectors and Two-Dimensional Motion (Phy 2053): vittitoe Motion in Two Dimensions
If an object is launched at an initial angle of θ with the horizontal, the analysis is similar except that the initial velocity has a vertical component. Motion in Two Dimensions Vectors and Two-Dimensional Motion (Phy 2053): vittitoe
Ignoring air resistance, the horizontal component of a projectile's velocity A) is zero. B) remains constant. C) continuously increases. D) continuously decreases. Vectors and Two-Dimensional Motion (Phy 2053): vittitoe Motion in Two Dimensions
vovo x yAt t = 0 Eq 2 Constant acceleration Eq 1 Constant velocity Motion in Two Dimensions Vectors and Two-Dimensional Motion (Phy 2053): vittitoe
A ball is thrown with a velocity of 20 m/s at an angle of 60° above the horizontal. What is the horizontal component of its instantaneous velocity at the exact top of its trajectory? A) 10 m/s B) 20 m/s C) 5.0 m/s D) zero Vectors and Two-Dimensional Motion (Phy 2053): vittitoe Motion in Two Dimensions
vovo x y Sub Eq 1 Eq 3 Constant velocity Motion in Two Dimensions Vectors and Two-Dimensional Motion (Phy 2053): vittitoe Horizontal Position
EOC Problem If V x = 6.80 units and V y = 7.40 units, a) determine the magnitude of V. b) determine the direction of V VxVx V VyVy Vectors and Two-Dimensional Motion (Phy 2053): vittitoe
vovo x y Eq 4 Constant acceleration Motion in Two Dimensions Vectors and Two-Dimensional Motion (Phy 2053): vittitoe Vertical Position
A soccer ball is kicked with a velocity of 25 m/s at an angle of 45° above the horizontal. What is the vertical component of its acceleration as it travels along its trajectory? A) 9.80 m/s 2 downward B) (9.80 m/s 2 ) × sin (45°) downward C) (9.80 m/s 2 ) × sin (45°) upward D) (9.80 m/s 2 ) upward Vectors and Two-Dimensional Motion (Phy 2053): vittitoe Motion in Two Dimensions
A diver running 1.8 m/s dives out horizontally from the edge of a vertical cliff and 3.0 s later reaches the water below. a) How high was the cliff? EOC Problem h d v b) How far from its base did the diver hit the water? Vectors and Two-Dimensional Motion (Phy 2053): vittitoe
vovo h x y Sub into Eq 4 Eq 5 Solve Eq 3 for t Motion in Two Dimensions Vertical Position as a Function of Horizontal Displacement Vectors and Two-Dimensional Motion (Phy 2053): vittitoe
vovo h x y At the maximum height (v y = 0) Sub into Eq 4 Eq 7 Eq 6 Motion in Two Dimensions Maximum Height Vectors and Two-Dimensional Motion (Phy 2053): vittitoe
When a football in a field goal attempt reaches its maximum height, how does its speed compare to its initial speed? A) It is zero. B) It is equal to its initial speed. C) It is greater than its initial speed. D) It is less than its initial speed. Vectors and Two-Dimensional Motion (Phy 2053): vittitoe Motion in Two Dimensions
EOC Problem A football is kicked at ground level with a speed of 18.0 m/s at an angle of 35.0º to the horizontal. How much later does it hit the ground? Vectors and Two-Dimensional Motion (Phy 2053): vittitoe
vovo R h x y Eq 8 Motion in Two Dimensions Range Vectors and Two-Dimensional Motion (Phy 2053): vittitoe
At what angle should a water-gun be aimed in order for the water to land with the greatest horizontal range? A) 0° B) 30° C) 45° D) 60° Vectors and Two-Dimensional Motion (Phy 2053): vittitoe Motion in Two Dimensions
A projectile is fired with an initial speed of 65.2 m/s at an angle of 34.5º above the horizontal on a long flat firing range. Determine (a) the maximum height reached by the projectile. EOC Problem (b) the total time in the air (c) the total horizontal distance covered (that is, the range). Vectors and Two-Dimensional Motion (Phy 2053): vittitoe
Eq 1 Horizontal Velocity Eq 2 Vertical Velocity Eq 3 Horizontal Displacement Eq 4 Vertical Displacement Equations Vectors and Two-Dimensional Motion (Phy 2053): vittitoe
Eq 5 Vertical Position Eq 7 Maximum Height Eq 8 RangeEq 6 Time to the Top Equations Vectors and Two-Dimensional Motion (Phy 2053): vittitoe
vwvw d vwvw vSvS vBvB vBvB L Relative Velocity Vectors and Two-Dimensional Motion (Phy 2053): vittitoe
vSvS L vBvB vwvw Time required to go directly across. Relative Velocity Vectors and Two-Dimensional Motion (Phy 2053): vittitoe
You are trying to cross a river that flows due south with a strong current. You start out in your motorboat on the east bank desiring to reach the west bank directly west from your starting point. You should head your motorboat A) due west. B) due north. C) in a southwesterly direction. D) in a northwesterly direction. Vectors and Two-Dimensional Motion (Phy 2053): vittitoe Motion in Two Dimensions