Answer:
The net force acting on the bobsled is 300 N.
Explanation:
Given:
Mass of the bobsled is, [tex]m=75\ kg[/tex]
Displacement is, [tex]d=4.5\ m[/tex]
Initial speed is, [tex]u=0[/tex]m/s
Final speed is, [tex]v=6.0[/tex] m/s
Net acceleration acting on the bobsled can be determined using the following Newton's equation of motion:
[tex]v^2=u^2+2ad[/tex]
Plug in all the given values and solve for acceleration, [tex]a[/tex].
[tex](6.0)^2=0+2a(4.5)\\36=9a\\a=\frac{36}{9}=4\ m/s^2[/tex]
Now, as per Newton's second law, net force is the product of mass and acceleration. So,
[tex]F_{net}=ma\\F_{net}=75\times 4=300\ N[/tex]
Therefore, the net force acting on the bobsled is 300 N.
