Problema 13.1 - Mecánica Vectorial para Ingenieros - Dinámica - Beer & Johnston

Understanding Kinetic Energy in a Hybrid Vehicle Problem

Introduction to the Problem

• The problem is from "Vector Mechanics for Engineers: Dynamics" by Beer and Johnston, focusing on Chapter 13 about particle kinetics.

• It involves calculating the kinetic energy of a hybrid car weighing 1300 kg traveling at 108 km/h and determining the speed required for a truck (9000 kg) to have the same kinetic energy.

Calculating Kinetic Energy

• The formula for kinetic energy (KE) is introduced: KE = 1/2 * mass * velocity².

• The car's speed must be converted from kilometers per hour to meters per second for accurate calculations; 108 km/h converts to 30 m/s.

Step-by-Step Calculation

• For part A, the kinetic energy of the car is calculated using its mass and converted speed, resulting in KE = 585,000 Joules.

• This value can also be expressed as 585 times 10^3 Joules or Newton-meters.

Finding Truck Speed

• In part B, we need to find the truck's speed that would yield equivalent kinetic energy. The formula used is derived from rearranging KE = 1/2 * mass * velocity².

• By substituting known values into this formula, we calculate that the truck must travel at approximately 11.40 m/s to match the car's kinetic energy.

Summary of Key Steps

• Data was organized with proper unit conversions before applying formulas.