etic energy is the energy of motion. The following two experiments were designed to explorenether speed or mass plays a bigger role in delemining the amount of kinetic energy.Speriment 1 was designed to test how speed afects kinetic energy The kinetic energy isalcutated using a mass of 1.200 kg (mass of an average car) traveling at various speedshe equation for calculating the kinetic energy of an object is KE-CmKE the kinetic energy of the object It is measured in the energy unit of joules (J). m themass of the object in klograms (kg)Vthe speed of the object, measured in meters per second (m/s), which must be squared.Note 1 joule1 kg x (m/s)Complete the table for Experiment 1 and find the kinetic energy of the car at differentpeeds inthis experiment, mass is constant, which means that mass does not change.Experiment 1: Kinetic Energy of a 1,200 kg Car at Difforent SpeedsMass of CarSpeed of CarKinetic Energy1,200 kg2.78 m/s11,200 kg5.55 m/s2.3.1,200 kg8.33 m/s41,200 kg11.11 m/s5.1,200 kg13.89 m/s6.1,200 kg16.67 m/s7.1,200 kg19.44 m/s

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etic energy is the energy of motion The following two experiments were designed to explore nether speed or mass plays a bigger role in detemining the amount of kinetic energy. Speriment was designed to test how speed aflects kinelic energy The kinetic energy is alculated using a mass of 1.200 kg (mass of an average car) traveling at various speeds The equation for calculating the kinetic energy of an object is KE-(m. KE the kinetic energy of the object It is measured in the energy unit of joules (J). m the mass of the object in kitograms (kg). Vthe speed of the object, measured in meters per second (m/s), which must be squared. Note 1 joule 1 kg x (m/s) Complete the table for Experiment 1 and find the kinetic energy of the car at differentpeeds. in this experiment, mass is constant, which means that mass does not change. Experiment 1: Kinetic Energy of a 1,200 kg Car at Difforent Speeds Mass of Car Speed of Car Kinetic Energy 1,200 kg 2.78 m/s 1. 1,200 kg 5.55 m/s 2. 3. 1,200 kg 8.33 m/s 1,200 kg 11.11 m/s 1,200 kg 13.89 m/s 6. 1,200 kg 16.67 m/s 7. 1,200 kg 19.44 m/s 4. 5,

etic energy is the energy of motion The following two experiments were designed to explore nether speed or mass plays a bigger role in detemining the amount of kinetic energy. Speriment was designed to test how speed aflects kinelic energy The kinetic energy is alculated using a mass of 1.200 kg (mass of an average car) traveling at various speeds The equation for calculating the kinetic energy of an object is KE-(m. KE the kinetic energy of the object It is measured in the energy unit of joules (J). m the mass of the object in kitograms (kg). Vthe speed of the object, measured in meters per second (m/s), which must be squared. Note 1 joule 1 kg x (m/s) Complete the table for Experiment 1 and find the kinetic energy of the car at differentpeeds. in this experiment, mass is constant, which means that mass does not change. Experiment 1: Kinetic Energy of a 1,200 kg Car at Difforent Speeds Mass of Car Speed of Car Kinetic Energy 1,200 kg 2.78 m/s 1. 1,200 kg 5.55 m/s 2. 3. 1,200 kg 8.33 m/s 1,200 kg 11.11 m/s 1,200 kg 13.89 m/s 6. 1,200 kg 16.67 m/s 7. 1,200 kg 19.44 m/s 4. 5,

Chemistry

10th Edition

ISBN:9781305957404

Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste

Publisher:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste

Chapter1: Chemical Foundations

Section: Chapter Questions

Problem 1RQ: Define and explain the differences between the following terms. a. law and theory b. theory and...

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