### Inelastic Collisions - Activity Description

Resource:
Physics Interactives - Collision Carts

Inelastic Collisions Activity

Description:
Students explore collision principles using our Collision Carts simulation. They collect and analyze data in order to discover mathematical relationships between the before- and after-collision momentum of individual carts and of a system of two carts. They make a claim regarding momentum conservation and support the claim using evidence and reasoning. This activity is very similar to the Elastic Collisions activity; both use the Collisions Carts Interactive and have very similar format.

Performance Expectation:
Force and Motion  (HS-PS2-2):  Use mathematical representations to support the claim that the total momentum of a system of objects is conserved when there is no net force on the system.

This activity aligns with the three dimensions of the Next Generation Science Standards in the manner described below:

Disciplinary Core Ideas
 Force and Motion (HS-PS2.A.2): Momentum is defined for a particular frame of reference; it is the mass times the velocity of the object. Students use mass and velocity values reported in the simulation in order to calculate the momentum values of the colliding carts before and after the collision. Force and Motion (HS-PS2.A.3): If a system interacts with objects outside itself, the total momentum of the system can change; however, any such change is balanced by changes in the momentum of objects outside the system. By analyzing the pre- and post-collision momentum values of the two colliding carts, students will recognize that the momentum lost by one cart is equal to the momentum gained by the other cart.

Crosscutting Concepts
 Systems and System Models: When investigating or describing a system, the boundaries and initial conditions of the system need to be defined and their inputs and outputs analyzed and described using models. The Inelastic Collision activity leads students to the conclusion that when the colliding objects in a collision are viewed as a system, it is the combined momentum of both objects - that is, of the system - that is conserved. The total system momentum is the same before and after the collision.

Science and Engineering Practices
 Developing and Using Models: Develop and use a model based on evidence to illustrate the relationships between systems or between components of a system. This activity guides students to an understanding that collision occurring within an isolated system are characterized by the conservation of total system momentum. One object within the system - for instance, the red cart - will lose momentum while the other object - the blue cart - will gain that momentum. The momentum lost by one object is gained by the other object such that the total amount of momentum within the system is conserved. Analyzing and Interpreting Data: Analyze data using computational models in order to make valid and reliable scientific claims. After collecting mass and velocity values for individual carts before and after the simulated collision, students calculate the momentum of individual carts and of the system of two carts. Students then inspect and analyze the data in order to make a claim regarding the mathematical relationships. Students are asked to make reference to their data in order to support their claim. Using Mathematics and Computational Thinking: Use mathematical representations of phenomena to describe and/or support claims and/or explanations. The Inelastic Collisions activity is reliant upon students computing momentum values for several trials and using the computed values in order to make a claim regarding the conservation of system momentum. The activity is math-intensive and students draw their conclusions from the computed values.

Associated Reading from The Physics Classroom Tutorial:

Other Supporting Pages at The Physics Classroom:

View Infographic.

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