Biker Impact Landing#

content/public/007.Momentum and Impulse/2D Collisions/Biker Impact Landing/SnowboarderImpactLanding.png

A Biker is travelling with a velocity of \({{params_v}}m/s\), \(\theta=\) 39 \(^\circ\) below the tangent, when they land on the slope with no rebound. The impact lasts for \({{params_t}} s\). The weight of the biker and bike is \({{params_m}}kg\), and the hill slope is \(\alpha= {{params_ad}} ^\circ\).

Part 1#

Determine the average normal force exerted by the incline on the snowboard during the impact.

Answer Section#

Please enter in a numeric value in \(N\).

Part 2#

Determine their speed \(v\) along the slope just after impact.

Answer Section#

Please enter in a numeric value in \(m/s\).

Attribution#

Problem is licensed under the CC-BY-NC-SA 4.0 license.
The Creative Commons 4.0 license requiring attribution-BY, non-commercial-NC, and share-alike-SA license.