Answer:
Fx = -7042.86N (Taking the right as positive sense of motion)
Fy = 2154.29N.
Explanation:
The full solution can be found in the attachment below. The approach to the solution involves the summation of the respective components of the momentum along the horizontal and vertical axis.
To the right is taken as positive sense of motion and the left as negative sense of motion.
The basic statement of Newtown's second law have been used which is
M(v2 – v1) = Ft
See the attachment below for the complete calculation procedure.
Answer:
Horizontal component, Fx = -7045.59 N (Leftwards)
Vertical component, Fy = 2982.96 N (Upwards)
Explanation:
Mass of the baseball = 0.145 kg
Before impact, v₁ = 40 m/s
After impact, v₂ = 52 m/s
time of impact, t = 1.75 ms = 0.00175 s
According to the second law of motion, F = m(v₂ - v₁)/t
Resolving vectorially,
v₁ = 40i m/s ( right = +ve x)
v₂ = -52 cos 30 i + 52 sin 30 j m/s ( to the left (-ve x) and upwards (+ve y))
v₂ = -45.03i + 36j m/s
F = m(v₂ - v₁)/t
F = 0.145 (-45.03i + 36j - 40i)/ 0.00175
F = 0.145 (-85.03i + 36j)/ 0.00175
F = 82.86 (-85.03i + 36j)
F = -7045.59i + 2982.96j N
Fx = -7045.59 N (Leftwards)
Fy = 2982.96 N (Upwards)
