A water balloon is tossed at an angle of phi = 47 degrees above the horizontal, from a height of 1.50 m above the ground to a target located at delta x = 16 m away. The target is located on a platform h = 3.6 m above the ground. What must the initial speed of the water balloon be to hit the target?
A water balloon is tossed at an angle of phi = 47 degrees above the horizontal,...
A water balloon is tossed at an angle o = 51° above the horizontal, from a height of 1.50-m above the ground to a target located Ax = 16.0 m away. The target is located on a platform h = 3.2 m above the ground. What must the initial speed of the water balloon be to hit the target? m/s Target Water Balloon V 0 h 1.50 m Дх
A water balloon is tossed at an angle ϕ = 43° above the horizontal, from a height of 1.50-m above the ground to a target located Δx = 14.0 m away. The target is located on a platform h = 3.1 m above the ground. What must the initial speed of the water balloon be to hit the target? m/s
A water balloon is tossed at an angle ϕ = 37° above the horizontal, from a height of 1.50-m above the ground to a target located Δx = 13.0 m away. The target is located on a platform h = 3.4 m above the ground. What must the initial speed of the water balloon be to hit the target? answer in m/s
A water balloon is owned at an angle - 41 above the hortal, from a light of 1.50-hove the ground to target located x - 16.0 m away. The target is located on a platform 3.6 m above the ground. What must the initial speed of the water bebeto hit the target Target Water Balloon 1.50 m
A water balloon is launched at a speed of 34.0 m/s and an angle of 36 degrees above the horizontal. The water balloon hits a tall building located 23.0 m from the launch pad. At what height above the ground level will the water balloon hit the building? Calculate the answer in meters (m) and rounded to three significant figures.
A student throws a water balloon with speed yo from a height h = 1.74 m at an θ = 29° above the horizontal toward a target on the ground. The target is located a horizontal distance d= 7.5 m from the student's feet. Assume that the balloon moves without air resistance. Use a Cartesian coordinate system with the origin at the balloon's initial position.
The height of a cannon off the ground is 3m, the angle is 0 degrees (horizontal), the distance to a target on the ground is 20m. Calculate the initial speed the projectile must have in order to hit the target.
A student throws a water balloon with speed vo from a height h = 1.52 m at an angle θ=39° above the horizontal toward a target on the ground. The target is located a horizontal distance d = 7.5 m from the student's feet. Assume that the balloon moves without air resistance. Use a Cartesian coordinate system with the origin at the balloon's initial position. Part (a) what is the position vector, Rtarget that originates from the balloon's original position and...
A water balloon is launched with an initial speed of 40 m/s at 60 degrees above the horizontal. A tall building is 40 m from the launch site. Neglect air resistance and use g = 10 m/s^2. (numbers 8-11) A water balloon is launched with an initial speed of 40 m/s at 60 degrees above the horizontal. A tall building is 40 m from the launch site. Neglect air resistance and use g 10 m/s2 8. How much time does...
Given are three vectors. Vector A of magnitude 5.10 units is in a direction θ = 53.0° above the positive x-axis. Vector B of magnitude 5.00 units is directed in the direction of the positive y-axis. Vector C of magnitude 6.20 units is in a direction ϕ = 51.0° clockwise from the negative y-axis. Find the magnitude and direction of 2 A − B + 3C magnitude units direction ° counterclockwise from the +x-axis 1. [0/20 Points) DETAILS PREVIOUS ANSWERS...