Module 18 - Motion Analysis

Module 19 - Motorcycle Lean Angle

Module 20 - Conversions

Module 21 - Energy Kinetic

Module 22 - Energy>Break Fracture

Module 23 - 360 Linear Momentum

Module 25 - 360 LM-PDOF Lite (V1 and/or V2) Module 27 - Low Speed Collisions

Module 28 - Vector Momentum Analysis

Module 33 - Rotation Factor

Module 24 - Speed - Hydroplane

Module 35 - Speed - RPM

Module 36 - Tangent Offset

Module 37 - Weight Shift (3-Axis)

Module 41 - Combined Speed Formula

Module 42 - Conversions

Module 43 - Quadratic Solver

Module 44 - Triangle Solver

Module 15 - Pedestrian Vaults

Module 17 - Critical Speed of Curve - Yaw

Module 21 - Energy Kinetic

Module 24 - 360 Linear Momentum

Module 41 - Combined Speed Formula

Module 42 - Conversions

REC-TEC Basic Class


Learning Objective:

This course will provide an in-depth look at REC-TEC Accident Reconstruction Software. The student will get an understanding of how various modules can be utilized to both understand, and later help forensically explain, critical mathematical and graphical elements of the reconstruction.


At the end of this session: The student will have an understanding of REC-TEC.


Minimum Course Requirements:

Basic Computer skills (Windows Compatible)

Successful completion of Basic Accident Investigation

Basic understanding of Linear Momentum, Vectors, and Energy Modules Covered


Modules covered: (Click here for list) Basic_Class_Mods_Descrips.pdf 



     Module 1 - Acceleration-Deceleration (Rate/Factor)

     Module 2 - Acceleration Single Surface

     Module 3 - Deceleration Single Surface

     Module 5 - Multiple Events

     Module 6 - Multiple Surfaces

     Module 14 - Airborne



Approved for 8 ACTAR CEU

2 - Three Hour Online Classes

2 Hours Course Work Assignments

Total 8 Hours

Registration Opening Soon



REC-TEC Intermediate Class


Learning Objective:

This course will provide an in-depth look at REC-TEC Accident Reconstruction Software. The student will get an understanding of how various modules can be utilized to both understand, and later help forensically explain, critical mathematical and graphical elements of the reconstruction.


At the end of this session the student will have an intermediate understanding of REC-TEC.


Minimum Course Requirements: Basic Computer skills (Windows Compatible)

Successful completion of Basic Accident Investigation

Basic understanding of Linear Momentum, Vectors, and Energy


Modules Covered Modules Covered: (Click here for list)  Intermediate_Class_Module_Descrips.pdf



     Module 1 - Acceleration-Deceleration (Rate/Factor)

     Module 2 - Acceleration Single Surface

     Module 3 - Deceleration Single Surface

     Module 4 - Multiple Vehicle

     Module 5 - Multiple Events

     Module 6 - Multiple Surfaces

     Module 7 - Time-Distance (Acc-Dec)

     Module 8 - Time - Distance - Omni

     Module 18 - Motion Analysis Module

     Module 9 - Braking Maneuvers

     Module 59 - Separation Distance

     Module 13 - Turning Maneuvers

     Module 14 - Airborne

     Module 15 - Pedestrian Vaults

     Module 3 - Swerve and Recovery

     Module 17 - Critical Speed of Curve - Yaw




Approved for 40 ACTAR CEU

8 - Three Hour Online Classes

16 Hours of Course Work Assignments

Total 40 Hours

Registration Opening Soon



REC-TEC Advanced Class


Learning Objective:

This course will provide an in-depth look at REC-TEC Accident Reconstruction Software. The student will get an understanding of how various modules can be utilized to both understand, and later help forensically explain, critical mathematical and graphical elements of the reconstruction.


At the end of this session: The student will have an advanced understanding of REC-TEC.


Minimum Course Requirements: Basic Computer skills (Windows Compatible)

Successful completion of Basic Accident Investigation

Basic understanding of Linear Momentum, Vectors, and Energy Modules Covered


Modules Covered: (Click here for list)  Advanced_Class_Module_Descrips.pdf

Approved for 40 ACTAR CEU
8 - Three Hour Online Classes
16 Hours of Course Work Assignments
Total 40 Hours
Registration Opening Soon

Module 31 - Reduced Mass (CEES)
Module 32 - Stiffness Coefficients
Module 57 - Energy - Crush (Motorcycle)
Module 38 - AASHTO/AREA Vertical Alignment
Module 39 - AASHTO Sight Triangle
Module 40 - Electronic Rail Circuits
Module 45 - Statistical Range (Monte Carlo)
Module 46 - Photogrammetry (2D)
Module 55 - SMAC-RT
Module 55B - New Procedures and Protocols in SMAC-RT
Module 58 - Vectors

Module 53 - Time - Distance (EDM)
Module 10 - Collision Analysis
Module 11 - Following Maneuvers
Module 12 - Passing Maneuvers
Module 16 - Vault Slide Integration
Module 13 - Turning Maneuvers
Module 18 - Motion Analysis
Module 56 - Pole/Narrow Object Impact
Module 23 - 360 Digital Momentum
Module 26 - Angular Momentum
Module 29 - CRUSH5 (Delta V from Damage) & CRASH3

Module 29A - Solving for Impact & Post-Impact Speeds in CRUSH

Module 29B - Accuracy of Non-Equidistant "C" measurements

a Division of McKinzie & Associates

REC-TEC Heavy Truck Class

Learning Objective:
This course will provide an in-depth look at REC-TEC Accident Reconstruction Software. The student will get an understanding of how various modules can be utilized to both understand, and later help forensically explain, critical mathematical and graphical elements of the reconstruction.

Minimum Course Requirements:
Basic Computer skills (Windows Compatible)
Successful completion of Basic Accident Investigation
Basic understanding of Linear Momentum, Vectors, and Energy Modules Covered

Modules Covered: (Click here for list)Heavy_Truck_Class_Module_Descrips.pdf



Module 47 - DISC/S-CAM III/V Air Brake
Module 48 - Load Check A (Tractor - Trailer)
Module 49 - Load Check B (Straight Truck - Bus)
Module 50 - Maximum Off-Tracking
Module 51 - Rollover
Module 52 - Weight & Balance
Module 53 - Time - Distance (EDM)

Approved for 40 ACTAR CEU
8 - Three Hour Online Classes
16 Hours of Course Work Assignments
Total 40 Hours
Registration Opening Soon