clicking thelk he red crs 4. Turn off PASCO 850 interface and shut down the comp

Question

clicking thelk he red crs 4. Turn off PASCO 850 interface and shut down the computer 5. Clean up your bench. the at the upet coer, then select -discard Capstone is closed l. Table A: Data summary . the data listed in this table can be founá from Graph Pase p nal #1 and those recorded by hand in or medium Angle each measurement Caleulate the average values measurement Flight Time T (s) Da (m's) R (m) of the degree 2 O29&z; | |Measurement#11degree- Av Medium Measurement #2 Short Measurement #3 Short Measurement #4 degree 2 Av 30 degree 2 Av degree d #2. from Measurements #1 an Measurements #2 Measurements #1 Measured Flight range R (m) quantities Initial speed Uo (m/s) Quantities Related to F, on the ball on the ball the a, of the ball measured quantities a, of the ball Type of motion in x direction 3. Table C: Determination of yr (Fig. 1) from the measured values of 0, v, and using Eq. (3). 30 nd C

Explanation / Answer

Table B  

Fx on the object will be zero as there is no acceleration in x direction

Fy for both measurements can be calculated by the formula, Fy=m*g, {g=9.8 m/s2, here mass of the vall is not known to me}

As told above ax=0

ay=g for both the measurements

In x direction: the ball will have constant velocity of vocos(), For measurement 1 const velocity =3.30 m/s;

For measurement 2 const velocity =5.053 m/s {as cos(0) is 1}

In y direction: the ball will have constant acceleration of 'g' in the downward direction

Table C

we know that ymax=vo2*sin2()/2*g

For =0

measurement 1: ymax=0 as sin(0)=0

measurement 2: ymax=0 as sin(0)=0

For =30

ymax= 0.1257 m {putting the values in the formlua, v=3.14,=30}

For =45

ymax= 0.2499 m  {putting the values in the formlua, v=3.13, =45}

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