Measure the time of flight for different horizontal distances as shown in the Table 2Table (2)Distance X (m)Time of flight (T) sHorizontal velocity of the projectile vx= X/T 7.65 8.50 14.63 18.93 21.23 26.83 7- What are your observations from Table (2)?8- Calculate the acceleration of the ball just before it hits the ground.9- What’s the relationship between the range and air resistance? Table (2)Horizontal velocity ofthe projectile V= X/TDistance XTime of(m)7.65flight (T) s8.5014.6318.9321.2326.837- What are your observations from Table (2).8- Calculate the acceleration of the ball just before it hits the ground.9- What's the relationship between the range and air resistance? Part IIObjective:To verify that the horizontal component of the velocity (Vx) of theprojectile is constant during its motion.Procedures:1- Open the same link:https://phet.colorado.edu/sims/html/projectile-motion/latest/projectile-motion_en.html2- Set the height at zero level, H=0 m as shown:Initial ValuesHeight: 0 mAngle: 30Speed: 17 m'sCannonballMass1.17 kgDiametar0.67 mAdjust the launcher at 30°Gravity9.81 m'sTime0.87sO Air Rosistance ARange12.76 mAltitudeHelght3.68 mDrag Cooficiont 0.47Range (x)266 mIntial Speed 17 misII OO Normel• Slow3- Adjust the launcher at 04- Set the initial velocity of the projectile y at 15m/s. (you are free to select theinitial velocity)5- Fix the height (H), initial velocity (K) and the angle (0) at the above valuesand don't change them during this part.6- Measure the time of flight for different horizontal distances as shown in the30°.Table 2.

Solution: Given that the projectile with an initial velocity of 15 m/s is launched at the launch…

Answered: Table (2) Horizontal velocity of the…

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Distance X (m)	Time of flight (T) s	Horizontal velocity of the projectile v_x= X/T
7.65
8.50
14.63
18.93
21.23
26.83