Answer:
The speed is 29.9 m/s
Explanation:
The force created from gravity due to the wagon mass is:
[tex]F=m*g*sin(18.5)\\F=45.2*9.8*sin(18.5)\\F=140.55[/tex]
140.55 N pull the wagon down. Two parallel rope with tension of 191N creates 382 N on the wagon. Therefore:
[tex]T_{total}=382-140.55=241.45[/tex]
241.45 N force is pulling up the wagon. Then we need to find the acceleration of the wagon under this force:
[tex]F=m*a\\241.45=45.2*a\\a=5.34[/tex]
acceleration is 5.34 m/s^2. The distance is multiplication of acceleration and square of the time.
[tex]x=1/2*a*t^2\\83.8=0.5*5.34*t^2\\t=5.6[/tex]
After 5.6 second the wagon will ride 83.8 m up to hill. And the speed of wagon at that point is:
[tex]v=a*t\\v=29.9[/tex]
