Angle of Ballista: 45 degree Please calculate the initial velocity Maximum height Maximum range Percent error...

Using the average vertical range and the height, calculate the initial velocity (muzzle velocity) using equations...

Using the average vertical range and the height, calculate the initial velocity (muzzle velocity) using equations 5,6,7, & 8. x-coordinate axis 5y.) xf = (1/2)·ax·(Δt) 2 + vix·Δt + xi r = (1/2)·(0 m/s2 )·(Δt) 2 + vix·Δt + (0 m) 5x.) r = vix·Δt y-coordinate axis 6y.) yf = (1/2)·ay·(Δt) 2 + viy·Δt + yi 2y.) (0 m) = (1/2)·(-g)·(Δt) 2 + viy·Δt + (h) where g = 9.8 m/s2 where vix and viy are the components of the...

A projectile has an initial velocity of 45 m/s at an angle of 53o with respect...

A projectile has an initial velocity of 45 m/s at an angle of 53o with respect to the horizontal and begins at ground level. a. What are the x and y components of the projectile’s initial velocity? b. What is the maximum height of the projectile? c. How far away from where it begins does the object strike the ground? d. What is the magnitude and direction of the projectile’s velocity at t= 3 s? e. What is the displacement...

A projectile is fired with an initial velocity of 75.0 m/s at an angle of 33.0...

A projectile is fired with an initial velocity of 75.0 m/s at an angle of 33.0 degrees above the horizontal. It lands on a hillside 50m above the level from which it was fired. Determine 1) the time of flight of the projectile. 2) the maximum height to which it rises. 3) the horizontal distance from launching to landing points.

Projectile in 2D: A ball is thrown with initial speed V , at an angle θ...

Projectile in 2D: A ball is thrown with initial speed V , at an angle θ above the horizontal, over flat ground. Show that the motion is restricted to a single plane. Neglecting air resistance, find (a) the time taken for the ball to reach the ground; (b) the maximum height reached by the ball; (c) the horizontal distance travelled by the ball before hitting the ground (range); (d) the kinetic and potential energies at the position of maximum height...

A tennis ball is launched with a velocity of 40m/s at an angle of 12 degree....

A tennis ball is launched with a velocity of 40m/s at an angle of 12 degree. Thr ball lands 1 m below the launch height? 1) What is the total travel time by the ball? 2) How far along the ground does the ball during it s motion?

Consider a rock that is thrown off a bridge of height 82 m at an angle...

Consider a rock that is thrown off a bridge of height 82 m at an angle θ = 22° with respect to the horizontal as shown in the figure below. If the initial speed the rock is thrown is 13 m/s, find the following quantities. (a) The time it takes the rock to reach its maximum height. s (b) The maximum height reached by the rock. m (c) The time at which the rock lands. s (d) The place where...

A ball is thrown with an initial speed vi at an angle θi with the horizontal....

A ball is thrown with an initial speed vi at an angle θi with the horizontal. The horizontal range of the ball is R, and the ball reaches a maximum height R/8. In terms of R and g, find the following. (a) the time interval during which the ball is in motion t = ​ (b) the ball's speed at the peak of its path v = ​ (c) the initial vertical component of its velocity yi = ​ (d)...

Problem2: Johnny throws a ball at angle of 70⁰ . The velocity of the ball is...

Problem2: Johnny throws a ball at angle of 70⁰ . The velocity of the ball is 15 m/s when it leaves his foot. Calculate the following: Show all the formulas you use and write your complete calculation under each part. Initial velocity in X, and Y direction Vͦ X = Vͦ Y = b- Time to reach to its maximum height. c) Maximum height of the ball with respect to the ground.

1) Calculate the range for an object that is launched at an angle of 27.00 degrees...

1) Calculate the range for an object that is launched at an angle of 27.00 degrees above the horizontal and an initial height of 1.50m. the initial speed is 190.00 m/s. 2)an astronaut brings a simple pendulum to another planet and performs an experiment. the astronaut measures the period of the pendulum for several different lengths and then plots the data as a log[Period] vs. log[Length] graph. the equation of the line is y=0.503x + 0.0500. determine the acceleration due...

A ball is thrown directly upward from a height of 3 ft with an initial velocity...

A ball is thrown directly upward from a height of 3 ft with an initial velocity of 20 ft/sec. the function s(t) = -16t^2+20t+3 gives the height of the ball, in feet, t seconds after it has been thrown. Determine the time at which the ball reaches its maximum height and find the maximum height.