Chapter 6: Measurement of Work, Power, and Energy Expenditure



Similar documents
GENERAL EQUATION FOR SPIROMETRY CALCULATION OF VO 2 VO 2(ml O2/min) = (V I (ml O2/min STPD) * F I O 2 ) (V E(ml O2/min STPD) *F E O 2 )

Rowing Physiology. Intermediate. Editors: Ted Daigneault (CAN), Matt Smith (USA) Author: Thor S. Nilsen (NOR)

Cardiorespiratory Fitness

Tests For Predicting VO2max

Predicting Aerobic Power (VO 2max ) Using The 1-Mile Walk Test

AN APPLYING OF ACCELEROMETER IN ANDROID PLATFORM FOR CONTROLLING WEIGHT

Exercise Metabolism II


Assessment of Anaerobic & Aerobic Power

Ch 7 Kinetic Energy and Work. Question: 7 Problems: 3, 7, 11, 17, 23, 27, 35, 37, 41, 43

3 Work, Power and Energy

Name Class Date. You do twice as much work. b. You lift two identical books one meter above the ground.

Work, Energy and Power Practice Test 1

NAME: The measurement of BMR must be performed under very stringent laboratory conditions. For example:

Physics 201 Homework 8

The influence of exercise modality on dyspnoea perception during cardiopulmonary exercise testing in obese patients with COPD

Using mechanical energy for daily

Work. Work = Force x parallel distance (parallel component of displacement) F v

Physics 125 Practice Exam #3 Chapters 6-7 Professor Siegel

Name: Partners: Period: Coaster Option: 1. In the space below, make a sketch of your roller coaster.

9. The kinetic energy of the moving object is (1) 5 J (3) 15 J (2) 10 J (4) 50 J

Chapter 6 Work and Energy

W i f(x i ) x. i=1. f(x i ) x = i=1

WORK DONE BY A CONSTANT FORCE

Acceleration Introduction: Objectives: Methods:

Fitter, Faster, Stronger, Longer: Precor Cardio Development Program

Avoiding the Wall : Why women do not need to carbohydrate load. Jamie Justice. Audience: Women s marathon running groups and charity marathon coaches

EVALUAT ING ACADEMIC READINESS FOR APPRENTICESHIP TRAINING Revised for ACCESS TO APPRENTICESHIP

SHORT ANSWER. Write the word or phrase that best completes each statement or answers the question.

Name: Age: Resting BP: Wt. kg: Est. HR max : 85%HR max : Resting HR:

Interval Training. Interval Training

10.1 Quantitative. Answer: A Var: 50+

The Canadian Physical Activity, Fitness and Lifestyle Approach Supplement to the third edition

EVALUATION OF PERSONAL COOLING SYSTEMS FOR SOLDIERS Elizabeth A. McCullough and Steve Eckels

ANSWER KEY. Work and Machines

Work, Power, and Energy: Explaining the causes of motion without Newton. KIN335 Spring 2005

Overall Indicator: The student: recognizes the effects of forces acting on structures and mechanisms

University of South Florida, Tampa, FL. Nutrition Laboratory

Human Energy CHAPTER THREE LEARNING OBJECTIVES

Work, Energy & Momentum Homework Packet Worksheet 1: This is a lot of work!

Movement artifacts electrical noise caused by the movement of the sensor surface with respect to the skin surface

General Physical Science

Purpose of Testing (p 58 G) Graded Exercise Testing (GXT) Test Order. Maximal or Submaximal Tests?

Determination of the heat storage capacity of PCM and PCM objects as a function of temperature

The Royal Military College - Duntroon Army Officer Selection Board Bridging Period Conditioning Program

Unit 8A: Systems in Action (Pg. 2 85) Chapter 2: Getting to Work (pg )

Analysis of Peak Oxygen Consumption and Heart Rate During Elliptical and Treadmill Exercise

Relationship of Heart Rate with Oxygen Consumption of adult male workers from Service and Manufacturing Sectors

Physical Quantities and Units

Cardiovascular Responses to Exercise

Displacement (x) Velocity (v) Acceleration (a) x = f(t) differentiate v = dx Acceleration Velocity (v) Displacement x

Curso Física Básica Experimental I Cuestiones Tema IV. Trabajo y energía.

PHY121 #8 Midterm I

Work and Energy. Work = Force Distance. Work increases the energy of an object. Energy can be converted back to work.

The Correlational Study of the Vertical Jump Test and Wingate Cycle Test as a Method to Assess Anaerobic Power in High School Basketball Players

Three-dimensional figure showing the operation of the CRT. The dotted line shows the path traversed by an example electron.

Using the Quadrant. Protractor. Eye Piece. You can measure angles of incline from 0º ( horizontal ) to 90º (vertical ). Ignore measurements >90º.

Chapter 6. Work and Energy

IMGPT: Exercise After a Heart Attack N. RICHMOND ST (Located next to Fleetwood HS) Why is exercise important following a heart

Chapter 11. h = 5m. = mgh mv Iω 2. E f. = E i. v = 4 3 g(h h) = m / s2 (8m 5m) = 6.26m / s. ω = v r = 6.

Trikke Report. The Research on the health benefits and. energy usage of riding a Trikke

Altitude. Thermoregulation & Extreme Environments. The Stress of Altitude. Reduced PO 2. O 2 Transport Cascade. Oxygen loading at altitude:

Training Program for Clubs and Individuals. FISA Development program. rowing

UNIVERSAL FITNESS NETWORK, Inc West Monica Dunlap, IL (309) FACTS ABOUT THE PHYSICAL FITNESS ASSESSMENT TESTS

Work Energy & Power. September 2000 Number Work If a force acts on a body and causes it to move, then the force is doing work.

PRODUCTS FOR LIFE AND PERFORMANCE NEWS 2016 SPORTS RANGE MEDICAL RANGE PAGE 1

Product Data Sheets. Belt Conveyor System

Calories. 23 calories from fat + 48 calories from carbohydrates + 32 calories from protein = 103 Calories in 1 cup of 1% milk

Two-Body System: Two Hanging Masses

Anaerobic and Aerobic Training Adaptations. Chapters 5 & 6

Uniformly Accelerated Motion

State Newton's second law of motion for a particle, defining carefully each term used.

There are four types of friction, they are 1).Static friction 2) Dynamic friction 3) Sliding friction 4) Rolling friction

Robotics & Automation

Enrollment Data Undergraduate Programs by Race/ethnicity and Gender (Fall 2008) Summary Data Undergraduate Programs by Race/ethnicity

Appendix A Oxymax Calculations

Work and Conservation of Energy

FRICTION, WORK, AND THE INCLINED PLANE

Physics 40 Lab 1: Tests of Newton s Second Law

Name Period WORKSHEET: KINETIC AND POTENTIAL ENERGY PROBLEMS. 1. Stored energy or energy due to position is known as energy.

Chapter 10: Linear Kinematics of Human Movement

Calibration and Use of a Strain-Gage-Instrumented Beam: Density Determination and Weight-Flow-Rate Measurement

Energy, Work, and Power

Journal of Engineering Science and Technology Review 2 (1) (2009) Lecture Note

Kinesiology Graduate Course Descriptions

Basic Training Methodology. Editors: Thor S. Nilsen (NOR), Ted Daigneault (CAN), Matt Smith (USA)

Acceleration due to Gravity

Schedule of Amendments - IPC Athletics Rules & Regulations. Rules Original rule Amended Rule Rationale

3600 s 1 h. 24 h 1 day. 1 day

Mechanical Systems. Grade 8 Unit 4 Test. 1. A wheelbarrow is an example of what simple machine? Class 1 lever. Class 2 lever.

Mechanics of the Human Spine Lifting and Spinal Compression

F output. F input. F = Force in Newtons ( N ) d output. d = distance ( m )

Department of Kinesiology San Jose State University Kin Exercise Physiology Spring, 2014

We extended the additive model in two variables to the interaction model by adding a third term to the equation.

MATH 10550, EXAM 2 SOLUTIONS. x 2 + 2xy y 2 + x = 2

Extra Problems #3. ECON Macroeconomic Theory Spring 2010 Instructor: Guangyi Ma. Notice:

Mass Flow Meters & Controllers

Unit 4 Practice Test: Rotational Motion

Transcription:

Chapter 6: Measurement of Work, Power, and Energy Expenditure Objectives Define the terms work, power, energy, and net efficiency Give a brief explanation of the procedure used to calculate work performaed during: cycle ergometer exercise & treadmill exercise Describe the concept behind the measurement of energy expenditure using: direct and indirect calorimetry Objectives Discuss the procedure used to estimate energy expenditure during horizontal treadmill walking and running Define the following terms. Kilogram-meter, relative VO 2, MET and open-circuit spirometry 1

Units of Measure English system used in United States Metric system is t he standard system of measurement for scientists Used to express mass, length, and volume System International units or SI units Standardized terms for measurement of: Energy Force Work Power Work Work is the product of force and distance Work = force x distance Lifting a 5 kg weight up a distance of 2 m Work = force x distance Work = 5 kp x 2 m Work = 10 kpm Kg measure of mass, not force Kp = force acting on a mass of 1 kg at normal gravity Power Power is how much work is done per unit of time Power = work / time Performing 2,000 kgm of work in 60 seconds Power = work/time Power = 2,000 kgm/60s Power = 33.3 kgm s -1 SI Units: 1 Watt (W) = 0.102 kpm s -1 Power = 326.8 W 2

Measurement of Work and Power Bench Step Work = body weight (kg) x distance/step x steps/min x min Work = body weight (kg) x distance (m) = 70 kp x 150 m = 10,500 kpm or ~ 103 kilojoules Power = work minutes = 10,500 kpm / 10 min = 1,050 kpm/min or 171.6 W Measurement of Work and Power Cycle Ergometer Work = resistance (kg) x (distance/revolution X revolutions) Work = force (kg) x distance (m) = 1.5 kp x (6m/rev x 600 rev) 0 5,400 kpm or 52.97 kilojoules Power = work minutes = 5,400 kpm / 10 min = 540 kpm/min or 88.2 W Measurement of Work and Power Treadmill Calculation of work performed while a subject runs or walks on a treadmill is not generally possible when the treadmill is horizontal. Although running horizontal on a treadmill requires energy Work performed during horizontal walking or running is complicated Quantifiable work is being performed when walking or running up a slope 3

Determination of Percent Grade on a Treadmill Fig 6.2 Measurement of Work and Power Treadmill Incline of the treadmill is expressed in percent grade Percent grade is the amount of vertical rise per 100 units of belt travel Vertical displacement = % grade x Distance Treadmill speed = 200m/min Percent Grade = 7.5% or 0.075 Exercise time = 10 mins Total vertical distance traveled = 200m/min X 0.075 x 10 mins = 150 m Measurement of Work and Power Treadmill Work = body weight (kg) x total vertical distance traveled = 70 kp x 150 m = 10,500 kpm or ~103 kilojoules Power = work minutes = 10,500 kpm / 10 mins = 1050 kpm/min or Watts 4

Measurement of Energy Expenditure Direct calorimetry Measurement of heat production as an indication of metabolic rate Cell work Heat Foodstuff + O 2 ATP + Heat Indirect calorimetry Measurement of oxygen consumption as an estimate of resting metabolic rate Foodstuff + O 2 Heat + CO 2 + H 2 O Open-Circuit Spirometry Fig 6.4 Estimation of Energy Expenditure Energy cost of horizontal treadmill walking or running O 2 requirement increases as a linear function of speed Expression of energy cost in METs 1 MET = energy cost at rest 1 MET = 3.5 ml kg -1 min -1 5

Linear Relationship Between VO 2 and Walking or Running Speed Fig 6.5 Calculation of Exercise Efficiency Net efficiency % net efficiency = Work output Energy expended x 100 above rest Net efficiency of cycle ergometry 15-27% Factors That Influence Exercise Efficiency Exercise work rate Efficiency decreases as work rate increases Speed of movement There is an optimum speed of movement and any deviation reduces efficiency Fiber composition of muscles Higher efficiency in muscles with greater percentage of slow fibers 6

Net Efficiency During Arm Crank Ergometery Fig 6.8 Relationship Between Energy Expenditure and Work Rate Fig 6.9 Effect of Speed of Movement of Net Efficiency Fig 6.10 7

Running Economy Not possible to calculate net efficiency of horizontal running Running Economy Oxygen cost of running at given speed Lower VO 2 (ml kg -1 min -1 ) indicates better running economy Gender difference in running economy No difference at slow speeds At race pace speeds, males may be more economical that females Comparison of Running Economy Between Males and Females Fig 6.11 8

2026 © DocPlayer.net Privacy Policy | Terms of Service | Feedback  | Do Not Sell My Personal Information