Student Data Students are to complete tables 3 and 4 Table 3: Student Data-Speed
ID: 1871657 • Letter: S
Question
Student Data Students are to complete tables 3 and 4 Table 3: Student Data-Speed of the Ball by the Projectile Method Speed of Range Range Height Height Time of Fall the Ball (cm/s) Average 12743 223 92.2 2 e 63AS 2 267 222 1924 2 04 635 216 423922 6 Table 4:Student Data-Speed of the Ball before Collision by the Momentum Method Mass of the pendulumm Mass ofthe ball ·m Speed of the Pendulum Speed of the Ball Average & Ball After Collision Before Collision Average (cm) (cm/s) 1 6. 19 127.55 2122 % Difference between vap and vbm- Calculations Show all calculations. If you do calculations on a spreadsheet, the calculation will then be an integral part of the spreadsheet and need not be shown here Post-lab Questions What is the initial vertical speed of the ball when it is shot on the floor? 2 What is the momentum of a car of mass 2000 kg traveling with 30 m/sec? 40Explanation / Answer
1):as from above data we have highet=S=0.92m
Time taken to reach ground=0.43s
Final speed=6.5m/s=v
We have acceleration due to gravity=9.8m/s=a
And let initial speed=u
So from equation of motion
V=u +at
6.5=u +9.8*0.43
u=6.5-4.212
u=2.288 m/s.
2):momentum =mass(kg) x velocity (m/s)
Momentum =2000*30=60000kg.m/s
3):the value of g, acceleration due to gravity is 9.8m/s².
4):from equation of motion we have v²=u²+2as where v=final velocity, u=initial velocity, a=acceleration and s=distance.
As we can see the final velocity depends only on acceleration due to gravity, g, as all other parameters are same in both the cases. But g depends on earth and not on the falling bodies which means that g will be also equal in both the cases and so will be the final velocity. Thus the statement is true.
6): put value of s i.e distance in above formula we get
V²=0² +2(9.8)1000
V²=19600
V=140m/s.