2. Consider the following recursive formula for the velocity of freefallingparachuteDrag coefficient is variable.Considering given constants, and the values in the table, fill the missingentries. Show your calculation steps.v(ti+1)= v(t₁) + (g-v(ti)²) (t₁+1 - ti)M [kg]g [m/sec²]At [sec]Initial velocity [m/sec]Time[sec]00.511.52Velocity[m/sec]0.0008.1127.259809.810.50Dragcoefficient[kg/m]0.2515(Ca/m)*v²[m/sec²]0.0000.07513.13111.5159.880dv/dt[m/sec²]9.81009.7348-3.3212-1.7052-0.0705Av[m/sec]4.905.867-1.661-0.853-0.035

Given:veocity of parachute is given asvti+1 = vti+g−Cdmvti2×ti+1−timass, m = 80 kgacceleration due…

Consider the following recursive formula for the velocity of freefalling parachute v(t₁+1) = v(t₁) + (g-v(t₁)²³) (t₁+1 -ti) m Drag coefficient is variable. Considering given constants, and the values in the table, fill the missing entries. Show your calculation steps.

Consider the following recursive formula for the velocity of freefalling parachute v(t₁+1) = v(t₁) + (g-v(t₁)²³) (t₁+1 -ti) m Drag coefficient is variable. Considering given constants, and the values in the table, fill the missing entries. Show your calculation steps.

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Question

2. Consider the following recursive formula for the velocity of freefalling
parachute
Drag coefficient is variable.
Considering given constants, and the values in the table, fill the missing
entries. Show your calculation steps.
v(ti+1)= v(t₁) + (g-v(ti)²) (t₁+1 - ti)
M [kg]
g [m/sec²]
At [sec]
Initial velocity [m/sec]
Time
[sec]
0
0.5
1
1.5
2
Velocity
[m/sec]
0.000
8.112
7.259
80
9.81
0.5
0
Drag
coefficient
[kg/m]
0.25
15
(Ca/m)*v²
[m/sec²]
0.000
0.075
13.131
11.515
9.880
dv/dt
[m/sec²]
9.8100
9.7348
-3.3212
-1.7052
-0.0705
Av
[m/sec]
4.905
.867
-1.661
-0.853
-0.035

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