A cannon aimed 30 degrees above a flat plane is fired. What is the time in...

A cannon, elevated 40o above the horizontal, is fired at a castle wall 720m away on...

A cannon, elevated 40o above the horizontal, is fired at a castle wall 720m away on level ground. The initial speed of the cannonball is 100m/s. a. What are the initial horizontal (x-direction) and vertical (y-direction) components of the velocity? b. How long will it take for the cannon ball to hit the wall? c. How high on the wall does the cannon ball hit?

(Figure 1) A cannonball is fired horizontally from the top of a cliff. The cannon is...

(Figure 1) A cannonball is fired horizontally from the top of a cliff. The cannon is at height H = 80.0m above ground level, and the ball is fired with initial horizontal speed v0. Assume acceleration due to gravity to be g = 9.80m/s2 . Part A Assume that the cannon is fired at time t=0 and that the cannonball hits the ground at time tg. What is the y position of the cannonball at the time tg/2? Answer numerically...

Q3: A cannonball with an initial height of 1.5 meter above the ground is fired from...

Q3: A cannonball with an initial height of 1.5 meter above the ground is fired from a cannon at an angle of θ above the horizontal and with initial velocity of 40 m/s. The cannonball travels a horizontal distance of 30 meters and passes over a 14 meter high castle wall. Find the initial firing angle θ How much time it takes for the ball to pass over the castle wall ?. Find the velocity (magnitude and direction ) if...

A projectile motion (i.e. cannon) can be modeled via the following equations: x=u cos⁡θ t y=-0.5...

A projectile motion (i.e. cannon) can be modeled via the following equations: x=u cos⁡θ t y=-0.5 g t^2+u sin⁡θ t Where: x: Position of the cannonball after t seconds in the x-direction (meters) y: Position of the cannonball after t seconds in the y-direction (meters) u: Initial velocity of the cannonball (meters per second) g: Acceleration due to gravity (meters per second squared) t: Time (seconds) In this question, we are trying to see the effects of the angle ϴ...

At time t = 0, an anti-aircraft cannon located at (0, 0) fires a shell at...

At time t = 0, an anti-aircraft cannon located at (0, 0) fires a shell at a speed 800 m/s. At the same moment, an aircraft is at coordinate (1000, 3000) and flying in the −x direction with a constant velocity 300 m/s. Determine at what angle(s) with respect to the +x axis the cannon must fire so that the shell can hit the aircraft and determine at what location the aircraft will be hit.

A cannonball is fired with an initial velocity of 100 m/s at an angle of 35...

A cannonball is fired with an initial velocity of 100 m/s at an angle of 35 degrees above the positive x-axis. The target is the enemy King's tower.   The cannon is positioned 300 m from the base of the King's tower, on a flat, horizontal field. The cannonball takes 3.66 s to strike the tower after it is fired. 1. At what height on the tower does the cannonball strike? 2. What is the approximate magnitude of the cannonball's velocity...

A 100 gram bullet is fired at an angle of 75 degrees above the the horizontal...

A 100 gram bullet is fired at an angle of 75 degrees above the the horizontal from the top of a 45 meter tall building with a speed of 60 m/s. Assume no air resistance acts on the bullet and take zero gravitational potential energy to be at ground level. A) What is the height of the bullet, measured above the ground, when 40% of the bullet’s total energy is kinetic energy? B) What is the greatest amount of gravitational...

Suppose a cylinder is on a plane inclined 30 degrees above the horizontal, lying so that...

Suppose a cylinder is on a plane inclined 30 degrees above the horizontal, lying so that it is ready to roll. a. Draw an extended free-body diagram for the cylinder. Make sure to label forces appropriately. b. Write down the three equations of motion that govern the linear and rotational motion of the cylinder. Recall that I_cyl = [1(MR^2)]/2, and make sure to substitute in all known quantities and use the standard symbols for unknown quantities. c. What constraints can...

Q1: A train accelerate from 0 m/s to 36 m/s in 12 seconds and continues for...

Q1: A train accelerate from 0 m/s to 36 m/s in 12 seconds and continues for 50 seconds at 36 m/s . The driver then brakes strongly to stop in 26 m. Find the constant acceleration of the train for the first 12 s Find the total displacement traveled by train. Find the acceleration for the braking phase. How long does it take the train to stop from when the brakes are first applied. Q2: A rocket is fired vertically...

Two identical loudspeakers are situated at the same height above a horizontal xy-plane and emit sound...

Two identical loudspeakers are situated at the same height above a horizontal xy-plane and emit sound waves of frequency 1660 Hz. The speakers are located at coordinates (0,1.57) and (0,-1.57), with units in meters. A point O on the x-axis a distance x1 = 9.1 meters away (x1,0) is the location of an interference maximum. A second point P at (x1, y2) is the location of the first minimum of sound intensity when moving away from point O in the...