A projectile is fired uphill as sketched in the figure below. If vo= 143 m/s, p = 15 and 0 = 25°, find L. m
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- Table 1. Shot velocity (V) of the projectile at an angle of 30. Two shots were made for each distance. Column 1 and 2 correspond to the throw from 1 meter away. To determine the velocity of fire of the projectile on the x-axis, use the equation: Vxo = Vo * cos 30°.Two vectors, F1 = 250 N and F2 = 300 N, have direction as shown in the figure below. Determine the resultant of components of vectors in x-axis and y-axis.3. Determine the resultant of the given vectors by component method. Summarize your answers in the given table. VECTORS Y component E 23 km N 25 km off from o. for ENGINES G 19 km Œ R 27 km 11° N 24° E of S 18° S of W 58° W of N
- In the narration below, what is the direction of the resultant displacement of the student? Ā = 175 km 30° N of E B = 150 km 20° W of N C = 190 km due west A. Due west. B. 11.56° N of E. C. 21.45° N of W. D. 48.89° N of E. E. 68.55° N of W.The displacement vectors Á and B shown in the Figure below both have magnitudes of 3 m. The direction of vector à is 0 = 30º. Find à + B O A. 7.10 О В. 5.20 О С. 3.00 O D. 1.30Question 4 An archer fires an arrow from a height of 1.80 m with a velocity of 25.4 m/s, 41.0° above the horizontal. a. Find the maximum height the arrow will reach. b. Find the distance from the archer's feet where the arrow will hit the ground. c. Determine the angle at which the arrow will hit the ground.
- pls answer this 100% corrctly thank you! A small airplane starts flying at a constant speed of 442 km/h on a heading of N72W. A 53 km/h wind is blowing from N41W. Determine the ground velocity of the airplane. Give direction as a quadrant bearing. Include diagram showing the vector addition with your solution.A golf ball is driven with the initial conditions shown in the figure. If the wind imparts a constant horizontal deceleration of 3.0 ft/sec². determine the values of r. ř.7.0.0, and when t-1.09 sec. Take the r-coordinate to be measured from the origin. 115 mi/hr 8= 25° Wind9. For the vector à in the attached figure, what is the value for the component Ã, A
- A projectile is launched with a speed of 300 m/s. At the top of its trajectory its speed is is 169 m/s. Determine the projectile's launch angle in degrees. Do not enter units.An object is shot from the edge of a cliff 125m above the ground level with an initial speed of 105m/s at an angle of 37.0° with the horizontal. d,. The magnitude of the velocity e. The angle made by the velocity vector with the horizontal.The initial velocity vector, v, and the final velocity vector, v, are shown below. Which of the following represents the change in velocity Av? V A. Select one: C. 17/ AV 1° B. D. 4 MA