4A projectile is fired from the origin (at y # 0 m) as shown in Figure....
A projectile is fired from the origin (at y=0 ) as shown in the figure. The initial velocity components are V0x=940 m / s and V0y=96 m / s. The projectile reaches a maximum height at point P, then it falls and strikes the ground at point Q. Neglect wind resistance.(a) What is the y-coordinate of point P?(b) What is the acceleration of the projectile at point P ?(c) What is the x-component of the velocity at point P ?(d)...
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is the answer C?
14) A projectile is fired from the origin (aty 0 m) as shown in Figure 3.1. The initial velocity components are vox-190 m/s and voy = 75 m/s. The projectile reaches maximum height at point 1, then it falls and strikes the ground at shell of point P is closest to: n Figure 3.1, they-component of the velocity of the A) -80 m/s B)-150 m/s C) zero D) +150 m/s E) +80 m/s
A projectile is fired from the origin (at y=0). The initial velocity components are V0x=940m/s and V0y=96m/s. The projectile reaches a maximum height at a point P and then falls and strikes the ground at a point Q. Neglect wind resistance.
A projectile is fired at time t = 0.0s, from point 0 at the edge of a cliff, with initial velocity components Vox = 80 m/s and and Voy = 800 m/s. The projectile rises, then falls into the sea at point P. The time of flight of the projectile is 200.0 s In Figure 3.2c, the height H of the cliff is closest to: A)32,130m B)36,000m C)47,490m D)43,650m E)39,810m
A projectile is fired at time t=0.0 s, from point 0 at the edge of a cliff, with initial velocity components of vox=10 m / s and voy=300 m / s. The projectile rises, then falls into the sea at point P. The time of flight of the projectile is 75.0 s.In Figure 3.2e, the y-coordinate of the projectile when its x-coordinate is 300 m is closest to:A) -290 mB) 290 mC) +1350 mD) +4590 m.E) +2790 m
1. As shown in the figure, a projectile is fired at time t=0.00 s, from point 0 at the upper edge of a cliff, with initial velocity components of vox = 46.0 m/s and voy = 406 m/s. The projectile rises and then falls into the sea at point P. The time of flight of the projectile is 115 s, and air resistance is negligible. At this location, g = 9.80 m/s2. What is the horizontal distance D? YA V...
Frances fired a projectile from the origin (at y=0 m) on top of a cliff. The initial velocity components are Viy=230 m/s and Vix=96m/s. The time to reach the ground is 36s, and the horizontal distance traveled is 3.5 km. The y coordinate of the highest point reached by the projectile is: a) 470m b) 2,700m c) 12,300m d) 940m e) 90,160m
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6) A train starts from rest and accelerates uniformly, until it has traveled 5.4 km and acquired a 6) velocity of 31 m/s. The train then moves at a constant velocity of 31 m/s for 400 s. The train thern decelerates uniformly at 0.065 m/s2, until it is brought to a halt. The distance traveled by the train during deceleration, in km, is closest to: A) 6.0 B) 7.0 C) 6.7 D) 63 E) 7.4 Situation 2.2 A rock...
A projectile is fired at time t=0.0 s, from point ) at the edge of a cliff, with initial velocity components of V0 x=90 m / s and V0 y=500 m / s. The projectile rises, then falls into the sea at point P. The total flight time is 125 s.(a) What is the magnitude of the velocity at time t=15.0 seconds?(b) In the figure, what is the distance D?(c) What is the height of the cliff?
Exactly 3.1 s after a projectile is fired into the air from the ground, it is observed to have a velocity v⃗ = (9.0 i^ + 4.7 j^)m/s, where the x axis is horizontal and the y axis is positive upward. 1. Determine the horizontal range of the projectile 2. Determine its maximum height above the ground 3. Determine the speed of motion just before the projectile strikes the ground 4. Determine the angle of motion just before the projectile strikes...