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Distance X (m) 7.65 8.50 14.63 18.93 21.23 26.83 Table (2) Horizontal velocity of the projectile v=X/T Time of flight (T) s 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? including 100,000 templates, unlimited PDF editing, and Al features. Part (2): Upgrade Now Objective: To verify that the horizontal component of the velocity (v) of the projectile is constant during its motion. Procedures: 1- Open the same link: https://phet.colorado.edu/sims/html/projectile-motion/latest/projectile-motion en.html 2- Set the height at zero level, H=0 m as shown Adjust the launcher at 30 Range (x) 3- Adjust the launcher at 0 = 30° 4- Set the initial velocity of the projectile vo at 15m/s. (you are free to select the initial velocity) 5- Fix the height (H), initial velocity (v) and the angle (e) at the above values and don't change them during this part. 6- Measure the time of flight for different horizontal distances as shown in the Table 2. 四 D 100%

Distance X (m) 7.65 8.50 14.63 18.93 21.23 26.83 Table (2) Horizontal velocity of the projectile v=X/T Time of flight (T) s 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? including 100,000 templates, unlimited PDF editing, and Al features. Part (2): Upgrade Now Objective: To verify that the horizontal component of the velocity (v) of the projectile is constant during its motion. Procedures: 1- Open the same link: https://phet.colorado.edu/sims/html/projectile-motion/latest/projectile-motion en.html 2- Set the height at zero level, H=0 m as shown Adjust the launcher at 30 Range (x) 3- Adjust the launcher at 0 = 30° 4- Set the initial velocity of the projectile vo at 15m/s. (you are free to select the initial velocity) 5- Fix the height (H), initial velocity (v) and the angle (e) at the above values and don't change them during this part. 6- Measure the time of flight for different horizontal distances as shown in the Table 2. 四 D 100%

College Physics
College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
Chapter1: Units, Trigonometry. And Vectors
Section: Chapter Questions
Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...
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Distance X (m) 7.65 8.50 14.63 18.93 21.23 26.83 Table (2) Horizontal velocity of the projectile v=X/T Time of flight (T) s 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?
Transcribed Image Text:Distance X (m) 7.65 8.50 14.63 18.93 21.23 26.83 Table (2) Horizontal velocity of the projectile v=X/T Time of flight (T) s 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?
including 100,000 templates, unlimited PDF editing, and Al features. Part (2): Upgrade Now Objective: To verify that the horizontal component of the velocity (v) of the projectile is constant during its motion. Procedures: 1- Open the same link: https://phet.colorado.edu/sims/html/projectile-motion/latest/projectile-motion en.html 2- Set the height at zero level, H=0 m as shown Adjust the launcher at 30 Range (x) 3- Adjust the launcher at 0 = 30° 4- Set the initial velocity of the projectile vo at 15m/s. (you are free to select the initial velocity) 5- Fix the height (H), initial velocity (v) and the angle (e) at the above values and don't change them during this part. 6- Measure the time of flight for different horizontal distances as shown in the Table 2. 四 D 100%
Transcribed Image Text:including 100,000 templates, unlimited PDF editing, and Al features. Part (2): Upgrade Now Objective: To verify that the horizontal component of the velocity (v) of the projectile is constant during its motion. Procedures: 1- Open the same link: https://phet.colorado.edu/sims/html/projectile-motion/latest/projectile-motion en.html 2- Set the height at zero level, H=0 m as shown Adjust the launcher at 30 Range (x) 3- Adjust the launcher at 0 = 30° 4- Set the initial velocity of the projectile vo at 15m/s. (you are free to select the initial velocity) 5- Fix the height (H), initial velocity (v) and the angle (e) at the above values and don't change them during this part. 6- Measure the time of flight for different horizontal distances as shown in the Table 2. 四 D 100%
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