Question 4 0/0.8 pts A projectile that is fired with an initial velocity of 118 m/s...
Question 4 0/0.8 pts A projectile that is fired with an initial velocity of 118 m/s is inclined upward at an angle of 39. It lands at a point -34 m lower than the initial point. Calculate the time of flight
Question 4 0.8 pt A projectile that is fired with an initial velocity of 132 m/s is inclined upward at an angle of 51°. It lands at a point -28 m lower than the initial point.Calculate the time of flight
Question 4 0.8 pt A projectile that is fired with an initial velocity of 132 m/s is inclined upward at an angle of 51°. It lands at a point -28 m lower than the initial point.Calculate the time of flight
A projectile is fired off the edge of a cliff, with initial velocity components of V_ox = 30 m/s and V_oy = 100 m/s. The projectile rises, then falls into the sea at point P. The time of flight of the projectile is 25.0 s. What is the velocity and angle of the projectile at 20 s?
Problem 4: A projectile is fired with an initial velocity of 54.1 m/s, at an initial inclination of 33.7 degrees with the horizontal r-axis. All initial variables (displacement and time) start at 0. You are asked to consider two cases of motion for the projectile, one without drag, and one with drag, with both the cases including effects of gravity. a) For motion with no drag, acceleration vector is given as а -g, where g 9.8 m/s. b) For motion...
Projectile Motion: An object is fired into a projectile with an initial velocity of 250 m/s at an angle of 60° with respect to the horizontal. a) What is the maximum height it reaches? b) What is the maximum horizontal distance it reaches? c) What is the time of flight of the particle? d) What is its velocity as it reaches the ground? e) Locate the object after 6 seconds.
Question 4 10 pts A projectile is fired from the edge of a 150-m cliff with an initial velocity of 180 m/s at an angle of 30° with respect to the horizontal. Neglecting air resistance, find the time it takes for the projectile to strike the ground in seconds) 180 m/s 130 150 m
2. Projectile A is fired with a velocity of 20 m/s at an angle of 30° below horizontal as shown in the figure and lands 2.31 seconds later. At what velocity must a second projectile B be fired at an angle of 50° above horizontal if it is to land at the same location as A? 300 A 20 m/s
04*. You fire a projectile 35° above horizontal with an initial velocity of 200 m/s It lands in a valley 300 m below the launch point. What is the time of flight of the projectile, and what is the range of projectile? [25.8s,4.23x103m]
Problem 8:A projectile is fired with initial velocity v0 = 95 m/s at an angle θ = 50°. After 5 s it strikes the top of a hill. What is the elevation of the hill above the point of firing? At what horizontal distance from the gun does the projectile land?