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.
Consider horizontal component of motion,
Now, consider vertical component of motion which is affected by acceleration due to gravity, in a downward direction
A water balloon is launched at a speed of 34.0 m/s and an angle of 36...
A ball is thrown horizontally of a cliff. If the initial speed of the ball is (15.0+A) m/s and the cliff is (25.0+B) m high, how far from the base of the cliff will the ball land in the water below? Calculate the answer in meters (m) and rounded to three significant figures. A=8 B=58 A water balloon is launched at a speed of (15.0+A) m/s and an angle of 36 degrees above the horizontal. The water balloon hits a...
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...
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 firefighter is spraying water on a building. Water leaves the hose at 35 m/s and an angle of 30 Degrees above the horizontal. The nozzle of the hose is 1.0 m above the ground, and the building is 22 m away. The building is 40 m tall. a. How much time does it take for the water to reach the building? b. At what height above the ground does the water hit the building? c. In what vertical direction...
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 ball is launched from the ground toward a tall wall of a building at initial speed v0 = 24 m/s at an angle of 39 degrees relative to the horizontal. The wall is at a distance of 32 m from the launch point. How far above the launch point does the ball hit the wall? Your answer should be in meters, but enter only the numerical part in the answer box.
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 baseball is hit with a speed of 29.0 m/s at an angle of 43.0 ∘ . It lands on the flat roof of a 14.0 m -tall nearby building. If the ball was hit when it was 1.3 m above the ground, what horizontal distance does it travel before it lands on the building? Express your answer using two significant figures.
In the annual battle of the dorms, students gather on the roofs of Jackson and Walton dorms to launch water balloons at each other with slingshots. The horizontal distance between the buildings is 34.0 m, and the heights of the Jackson and Walton buildings are, respectively, 15.0 m and 22.0 m. The first balloon launched by the Jackson team hits Walton dorm 1.90 s after launch, striking it halfway between the ground and the roof. Ignore air resistance. (a) Find...