314,267 views
14 votes
14 votes
An ice block on a frictionless path starts at rest and is released on the path. How much KE does it have at point B?

An ice block on a frictionless path starts at rest and is released on the path. How-example-1
User Mukesh Rajput
by
2.6k points

1 Answer

4 votes
4 votes

The difference in the height at which the ice block starts its motion to the height of the point B is,


\begin{gathered} h=4.5-2 \\ h=2.5\text{ m} \end{gathered}

The kinetic energy at the point B in terms of the potential energy for this difference in height is,


K=\text{mgh}

Substituting the known values,


\begin{gathered} K=m*9.8*2.5 \\ K=24.5\text{m} \end{gathered}

where m is the mass of the ice block.

Thus, the value of the kinetic energy at the point B is 24.5m.

User Causita
by
2.7k points