Calculating Speed with Kinematics

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SUMMARY

The discussion focuses on solving a kinematics problem involving a car decelerating uniformly. The car experiences an acceleration of -5.60 m/s² over a time period of 4.20 seconds, resulting in a skid distance of 62.4 meters before hitting a tree. The final speed of the car upon impact is calculated to be 3.10 m/s. The equation used for this calculation is D = VoT + 1/2AT², where Vo represents the initial velocity.

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  • Understanding of kinematic equations
  • Familiarity with concepts of acceleration and deceleration
  • Basic algebra skills for solving equations
  • Knowledge of units of measurement in physics (meters, seconds)
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  • Study the derivation and application of kinematic equations
  • Learn how to calculate final velocity using initial velocity and acceleration
  • Explore real-world applications of kinematics in automotive safety
  • Practice solving various kinematics problems involving different scenarios
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Students studying physics, particularly those focusing on mechanics, as well as educators seeking to enhance their teaching methods in kinematics.

darkmagicianoc
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I need help with this problem using the kinematic equations. My professor gave me the answer to this problem and wants to know the steps to achieve this answer.

This is the example:
The driver of a car slams on the brakes when he sees a tree blocking the road. The car slows uniformly with an acceleration of -5.60 m/s^2 for 4.20 s, making straight skid marks 62.4 m long ending at the tree. With what speed does the car then strike the tree?

The professor's answer is:
The speed is 3.10 m/s.

Thank you in advance for taking the time to help me!

--Dan
 
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Try using this equation:

D = volt + 1/2AT^2

Where Vo is the initial velocity. Once you find this, it is fairly straightforward to calculate the final velocity. Or, for a simpler method, just enter it as a positive acceleration and Vo will work out to be the final velocity!
 
Last edited:
Thank you for your help! I took your advice and it worked perfectly! I really appreciate the time and effort you took to help me!
 

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