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QUESTIONS l. Show the calculation of the expected horizontal distance Ra for the incline firing experiment....
Phys2425 LAB REPORT FORM PROJECTILE MOTION Data Table 1: Projectile Fired Horizontally Hi m. L.OOS Trail...
Phys2425 LAB REPORT FORM PROJECTILE MOTION Data Table 1: Projectile Fired Horizontally Hi m. L.OOS Trail i RIi (m) 2 4 average Q.423 2.438 2435 2. 41 2,434 JAR1 = Rli-Riay .Ol ARI 4.00 SS 004 .00 1 007 RI Riav AR1 =2.434 .0058m m/s Vo= Data Table 2: Projectile Fired on an Incline 45 H2 = Incline Angle 0- Trail i 2 average R2ay R2i (m) 4.103 4.1S7 4. I654, |6|4. |05 JA R2i = R2i- R2av AR2 ○11で.007...
Phys2425 Bobbs LAB REPORT FORM PROJECTILE MOTION Data Table 1: Projectile Fired Horizontally average Traili Rii...
Phys2425 Bobbs LAB REPORT FORM PROJECTILE MOTION Data Table 1: Projectile Fired Horizontally average Traili Rii (m) 250 Rlav 2.43 ARI 257 216 2.40 2y R-Rel 20.2 Data Table 2: Projectile Fired on an Incline Incline Angle 0 Trail i 2 Re()3442 46396 34 6.003 | 0.007 |0007|0.002 |-o,ood AR2 QUESTIONS I. Show the calculation of the expected horizontal distance R2 for the incline firing experiment. Use the value of the launch velocity, vo, from Data Table 1. What is...
Tx= vo2/g Sin20 (0 with line through the middle) where Tx= horizontal range, vo= initial velocity,...
Tx=
vo2/g Sin20 (0 with line through the middle) where Tx= horizontal
range, vo= initial velocity, o firing angle at fixed velocity. At
which value of 0, r, will attain its maximum value?
Please write clearly and neatly, showing appropriate work. No credit will be given for ambiguous work Question 1: (a) How does the range of the projectile depends of angle of projection? Discuss the answer with formula? d neatly, showing appropriate work. No credit will be given for...
THE EXPERIMENT The speed "." of a ball as it leaves the spring gun will be...
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...
d. Questions: 1. How did you predict horizontal distance (also known as range) from your measurements/calibrations?...
d. Questions: 1. How did you predict horizontal distance (also known as range) from your measurements/calibrations? a. Draw a diagram 2.40m b. Show your derivation below without using numbers Plug numbers into your equation from part b to show how you got your actual number. Include error propagation c. 2. Without changing the height of your apparatus, how could you get your launcher to shoot the ball farther? accuracy of your calculations? 3. How might air resistance affect the precision...
Ballistic Pendulum Version Procedure: Fire a practice shot. Locate the landing point on the floor then...
Ballistic Pendulum Version
Procedure: Fire a practice shot. Locate the landing point on the floor then secure a piece of white paper to the floor (centered about the landing point). Cover the sheet with a piece of carbon paper and tape it down. 1. Shoot the ball at least 5 times. Take care not to disturb the position of the launcher during the shots. 2. Measure the vertical height H of the projectile launcher from the floor. (Use a plumb...
EXPLORE A projectile is launched with a launch angle of 30° with respect to the horizontal...
EXPLORE A projectile is launched with a launch angle of 30° with respect to the horizontal direction and with an initial speed of 10 m/s. s0 (A) How do the vertical and horizontal components of the projectile's velocity vary with time? 40 35 (B) How long does it remain in flight? 25 (C) For a given launch speed, what launch angle produces the longest time of flight? 15 10 toy CONCEPTUALIZE Consider the projectile to be a point mass that...
Experimental technique 5. [1pt] Which of the following statements are true for this experiment? E.g., enter...
Experimental technique
5. [1pt]
Which of the following statements are true for this experiment?
E.g., enter AB. If none are true, enter N. You have 4
tries.
Everyone must wear safety glasses.
For each launch angle, the projectile range is measured for one
speed setting.
Never look into the barrel of the launcher when it is
loaded.
The launch angle θ measured using the plumb line is the angle of
the launcher with respect to the vertical.
The projectile is...
Procedure: Fire a practice shot. Locate the landing point on the floor then secure a piece...
Procedure: Fire a practice shot. Locate the landing point on the floor then secure a piece of white paper to the floor (centered about the landing point). Cover the sheet with a piece of carbon paper and tape it down. 1. Shoot the ball at least 5 times. Take care not to disturb the position of the launcher during the shots. 2. Measure the vertical height H of the projectile launcher from the floor. (Use a plumb bob determine the...
TRIAL 1 600 2.610 9.91 o.2 0.39 2.62 43 Average Result: The average speed of the given ball is ve...
TRIAL 1 600 2.610 9.91 o.2 0.39 2.62 43 Average Result: The average speed of the given ball is velas hralels 1) Pull the penduum to the side, insert the ball into the gun, and compress and latch the gun spring Release the pendulum so that it hangs vertically 2) Fire the gun. The pendulum will latch near the highest point of its swing. Measure ne height ha·the vertical distance from the pendulum platform to the center of the ball...
Phys2425 LAB REPORT FORM PROJECTILE MOTION Data Table 1: Projectile Fired Horizontally Hi m. L.OOS Trail i RIi (m) 2 4 average Q.423 2.438 2435 2. 41 2,434 JAR1 = Rli-Riay .Ol ARI 4.00 SS 004 .00 1 007 RI Riav AR1 =2.434 .0058m m/s Vo= Data Table 2: Projectile Fired on an Incline 45 H2 = Incline Angle 0- Trail i 2 average R2ay R2i (m) 4.103 4.1S7 4. I654, |6|4. |05 JA R2i = R2i- R2av AR2 ○11で.007...
Phys2425 Bobbs LAB REPORT FORM PROJECTILE MOTION Data Table 1: Projectile Fired Horizontally average Traili Rii (m) 250 Rlav 2.43 ARI 257 216 2.40 2y R-Rel 20.2 Data Table 2: Projectile Fired on an Incline Incline Angle 0 Trail i 2 Re()3442 46396 34 6.003 | 0.007 |0007|0.002 |-o,ood AR2 QUESTIONS I. Show the calculation of the expected horizontal distance R2 for the incline firing experiment. Use the value of the launch velocity, vo, from Data Table 1. What is...
Tx=
vo2/g Sin20 (0 with line through the middle) where Tx= horizontal
range, vo= initial velocity, o firing angle at fixed velocity. At
which value of 0, r, will attain its maximum value?
Please write clearly and neatly, showing appropriate work. No credit will be given for ambiguous work Question 1: (a) How does the range of the projectile depends of angle of projection? Discuss the answer with formula? d neatly, showing appropriate work. No credit will be given for...
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...
d. Questions: 1. How did you predict horizontal distance (also known as range) from your measurements/calibrations? a. Draw a diagram 2.40m b. Show your derivation below without using numbers Plug numbers into your equation from part b to show how you got your actual number. Include error propagation c. 2. Without changing the height of your apparatus, how could you get your launcher to shoot the ball farther? accuracy of your calculations? 3. How might air resistance affect the precision...
Ballistic Pendulum Version
Procedure: Fire a practice shot. Locate the landing point on the floor then secure a piece of white paper to the floor (centered about the landing point). Cover the sheet with a piece of carbon paper and tape it down. 1. Shoot the ball at least 5 times. Take care not to disturb the position of the launcher during the shots. 2. Measure the vertical height H of the projectile launcher from the floor. (Use a plumb...
EXPLORE A projectile is launched with a launch angle of 30° with respect to the horizontal direction and with an initial speed of 10 m/s. s0 (A) How do the vertical and horizontal components of the projectile's velocity vary with time? 40 35 (B) How long does it remain in flight? 25 (C) For a given launch speed, what launch angle produces the longest time of flight? 15 10 toy CONCEPTUALIZE Consider the projectile to be a point mass that...
Experimental technique
5. [1pt]
Which of the following statements are true for this experiment?
E.g., enter AB. If none are true, enter N. You have 4
tries.
Everyone must wear safety glasses.
For each launch angle, the projectile range is measured for one
speed setting.
Never look into the barrel of the launcher when it is
loaded.
The launch angle θ measured using the plumb line is the angle of
the launcher with respect to the vertical.
The projectile is...
Procedure: Fire a practice shot. Locate the landing point on the floor then secure a piece of white paper to the floor (centered about the landing point). Cover the sheet with a piece of carbon paper and tape it down. 1. Shoot the ball at least 5 times. Take care not to disturb the position of the launcher during the shots. 2. Measure the vertical height H of the projectile launcher from the floor. (Use a plumb bob determine the...
TRIAL 1 600 2.610 9.91 o.2 0.39 2.62 43 Average Result: The average speed of the given ball is velas hralels 1) Pull the penduum to the side, insert the ball into the gun, and compress and latch the gun spring Release the pendulum so that it hangs vertically 2) Fire the gun. The pendulum will latch near the highest point of its swing. Measure ne height ha·the vertical distance from the pendulum platform to the center of the ball...
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