You toss a ball from your window 14 meters above the ground. When the ball leaves your hand, it is moving at a speed of 20 m/s at an angle of 10 degree below the horizontal. Choosing a coordinate system such that its origin is located on your hand, the positive x axis is down and the positive y axis is right. Provide all the simplified equations of motion in both directions for this projectile motion problem.
You toss a ball from your window 14 meters above the ground. When the ball leaves...
You throw a ball from your window 14 meters above the ground. When the ball leaves your hand, it is moving at a speed of 20 m/s at an angle of 10 degree below the horizontal. Choosing a coordinate system such that its origin is located on your hand, the positive x axis is down and the positive y axis is right. Calculate how far horizontally from your hand, the ball lands.
You toss a ball from a balcony. When the ball leaves your hand, it is 10.0 meters above the ground and has a velocity of (10.0 m/s, 45.0 degrees above the horizontal). Ignore air resistance. (let's take the x-direction to be aligned with the horizontal motion and the y-axis to be upward.) A) How high above the ground does the ball go, and how much time does it take to reach max height? B) Determine the total time of flight....
Julie throws a ball to her friend Sarah. The ball leaves Julie's hand a distance 1.5 meters above the ground with an initial speed of 23 m/s at an angle 28 degrees; with respect to the horizontal. Sarah catches the ball 1.5 meters above the ground. What is the horizontal component of the ball’s velocity right before Sarah catches it? What is the vertical component of the ball’s velocity right before Sarah catches it? What is the time the ball...
A rock is thrown vertically downward from the edge of the mountain. It leaves your hand at a point even with the edge and a speed of 15 m/s. Using the four generic kinematics equations listed below, provide your simplified equations using a coordinate system whose y axis is positive down and the x axis positive right such that the origin is located at the edge of the mountain. tion: x=xo + vt 2 22a(-
A rock is thrown vertically upward from the edge of a cliff. It leaves your hand at a point even with the edge at a speed of 25 m/s. The rock is then in free fall. On its way back down, it misses the edge of the cliff and continues its fall towards the river. Using the four generic kinematics equations listed below, provide your simplified equations using a coordinate system whose y axis is positive down and the x...
THE EXPERIMENT The speed "." of a ball as it leaves the spring gun will be measured by projecting the ball horizontally (0-0) from a table top at a distance H above the floor. The gun is then elevated at a known angle 8. The position of the target is calculated using the measured value of v. calculated time of flight, and the equations of motion. A successful prediction with the projectile hitting the target means that the following concepts...
suppose that you drop a ball from a window 50 meters above the ground. the ball bounces to 50% of its previous height each bounce. if the ball continues to bounce in this manner how far will it have travled up and down from the time it was dropped from the winfow until the 25th bounce?
A ball is thrown at a 60 degree angle from the ground into a 3rd story window. If it is observed to be moving horizontally at 15.4 m/s through the window. If ball was thrown from 20 meters away in the parking lot, how high is the 4th floor window if the ball is released from the throwers hand 192 cm above the ground? (Assume the height of the hand throwing is equal to the height of the window above...
You toss a ball in the air from a height of 0.75 m above the ground. Later, you drop an identical ball from the same height. Will the first ball be moving faster, slower, or with the same speed as the second right before hitting the ground? Why?
A hot-air balloon rises at a velocity of 10 m/s. When the balloon is 60 meters above the ground, it releases a sandbag. After release, the sandbag is in free fall. Using the four kinematics equations listed below, provide your simplified equations using a coordinate system whose y axis is positive up and the x axis positive right such that the origin is located at the ground level tion: x=xo + vt 2 22a(-