Mrs. Brinston. a. Electrical malfunction is the second leading cause of fires in hospitals. b. Fortunately, electricity is also the most manageable of.

Slides:

Advertisements

Similar presentations

Hazards Of Electricity

Advertisements

Introducing Electricity and Electrical Safety

Electrical Safety.

Electrical Safety Scenarios

Electrical Safety Basic Electrical Safety Rafael Coll, Environment Safety and Health Section Health& Safety Group Ext Pager: (630)

Static Electricity Static electricity refers to the buildup of electric charge on the surface of objects. The static charges remain on an object until.

CHEM 521 Safety Presentation. Hazard Symbols You Must Know.

SAFETY…....…………. PREPAREDNESS FIRE, ELECTRICAL, AND HAZARD COMMUNICATION BASICS PREVENTING MEDICATION ERRORS PREVENTING PATIENT FALLS.

Young Worker Safety Resource Center, adapted from OSHA Office of Training and Education Electrical Safety.

Electrical Safety and Grounding Essentials Copyright © Texas Education Agency, All rights reserved.

Mr.A.R.ANBARASA AGM - Electrical GHCL Limited (Unit : Sree Meenakshi Mills )

ELECTRICAL SAFETY Safety Training for the Non-Qualified.

Basic Electrical Safety By Greg Bock PLU Electrician.

 Recognize the scope and structure of the OSHA standards.  Identify the common electrical hazards in long term care settings.  Discuss electrical safety.

Occupational Safety and Health Course for Healthcare Professionals.

Electrical Safety This material was produced under a grant (SH22249SH1) from the Occupational Safety and Health Administration, U.S. Department of Labor.

Conductors of electricity

BUILDING TRADE SAFETY ELECTRICAL SAFETY.

Electrical Safety Safety Training Series

Safety Training For The Non-Qualified

Basic Electrical Safety

SITE SAFETY HAZARDS AND PROCEDURES. ELECTRICAL HAZARDS  Electricity is a serious workplace hazard.  Employees can be exposed to dangers such as : 

9/6/ INTRODUCTION Three Important Commodities – Air, Water and Electricity Electricity – Clean and Efficient form of Energy Respect Electricity.

Electrical Safety INSTRUCTOR’S NOTES:

Electrical Safety. Defective Insulation To protect you, electrical wires are insulated by a plastic.

Electrical Safety Training

Electrical Safety INSTRUCTOR’S NOTES:

Electrical Safety INSTRUCTOR’S NOTES:

Circuits and Electronics. Circuits A circuit is a closed path through which a continuous charge can flow. A circuit is a closed path through which a continuous.

Chapter 20, Section 4 Electrical Safety Wednesday, January 20, 2010 Pages

English for Workspace Hazem Anwar Essa.  Some Definitions  What is the electrical shock, How does it happen??!!!  Danger of Electrical Shock  Safety.

Basic Electrical Safety

Copyright  Progressive Business Publications Electrical Safety.

BEAMLINE for SCHOOLS – East Area ELECTRICAL HAZARDS SAFETY 11 th September 2015 HSE Unit 1.

Using electricity! Chapter 19. Quick Bites Do you know who discovered electricity? – Thomas Edison – Benjamin Franklin – President Bush – Arnold Schwazenagger.

Accommodation & Hospitality Services STAFF BRIEFING – No 16 Electrical Safety.

Chapter 7 Safety. Introduction This chapter covers the following topics: Dangers of electricity Preventive measures Electrostatic discharge Safety practices.

Safety Rules, Practices and Devices Electric Shock – Nerve and muscle (including breathing and heart beat) functions work off of electric pluses (electron.

What is Electricity?.

The 13 Amp PLUG Fuse Insulating Casing Live Wire Neutral Cable grip Flexible Copper conductors Earth.

Electrical Safety and Electrical Safe Work Practices EHS Course #525 Reference EHS Electrical Safety Procedure

Practical electricity 2: uses and safety. a battery… a current can only flow when a circuit is complete… 12V 0 V.

Electric Current- A flow of electric charges is an electric current.

Simple Circuits & the Transfer of Electrical Energy

Electricity What Is Electricity? A form of energy made up of charges that can produce light, heat, or motion.

Current Electricity is the rate at which charges pass a given point. The higher the current is the greater the number of charges pass the point each second.

Electrical Safety, Subpart K

3 things needed to make a circuit: 1. Battery - energy 2. Wire – transfers the electricity 3. Indicator – tells you if circuit is working Ex: light, sound,

Chapter 6 Lesson 2. How can electricity flow? When an object gains of loses electrons, it has an electric charge. Similar to magnetic force, unlike charges.

Electric Charge and Static Electricity  Have you ever noticed that the cords that connect electrical devices to outlets are always covered in plastic,

Electricity and Electromagnetism. What is Electricity? Electricity is a form of energy resulting from charged particles.

Warm Up: What is this picture an example of? How does it work? What would happen if you placed a magnet inside the coils?

Conductors & Resistors

Electrical Safety & Cells and Batteries. Fulgurites Lightning can be dangerous because it discharges so much energy. Lightning strikes can actually melt.

Electrical Safety Basic Electrical Safety. Electrical Safety  Course not designed to teach you to work on electrical equipment. Basic Electrical Safety.

BASIC ELECTRICAL SAFETY. INTRODUCTION PURPOSE: To provide employees with safe work practices & procedures to prevent an electrical accident or injury.

Electrical Safety and Safe Work Practices

Unit 3 Lesson 3 Electric Circuits

Circuit Protection Unit 9.

Basic Electricity.

Basic Electrical Safety

Electrical Energy Vocabulary Lesson.

Electrical Safety & Cells and Batteries.

Controlling where Electricity Goes

Electrical Safety in the Home

Unit 3 Lesson 3 Electric Circuits

Basic Electrical Safety

Basic Electrical Safety

Basic Electric Principles

Make a Complete Circuit

Presentation transcript:

Mrs. Brinston

a. Electrical malfunction is the second leading cause of fires in hospitals. b. Fortunately, electricity is also the most manageable of all energy sources.

a. Voltage: electrical pressure which moves electrical current. b. Current: or amperage, flows at a rate that depends on the “impedance” or electrical resistance caused by the wires or other electrical pathway. c. Conductors and Insulator: Electrical current flows easily through “conductors” Good conductors: water, copper, aluminum, and other metals. Electrical current does not flow easily through insulators like rubber, plastic, enamel, glass and dry wood. (contact with conductors can increase your risk of serious shock a. Grounding Hazards: in most electrical systems, current that leaks out due to faulty wiring or some other defect is grounded – sent into the earth to be harmlessly discharged. You can become part of this electrical circuit and get shock.

a. When electric current flows through your body from an outside source. How the shock affects you depends on the following factors: i. How much voltage and current are involved: the more current the more risk ii. Your body’s resistance: tingling sensation – deadly jolt that cause your heart or breathing to stop. iii. The path of the current: most dangerous when current travels through vital organs. iv. How long the shock lasts: the longer current flows into you, the more damage it does.

a. If shocked you may be thrown back from the source b. If shocked your hand may contract and clench the electrical contact point tightly. This is dangerous.

a. Fires b. Electrical arcs (showers of sparks) c. Severe burns (when current flows through the body)

a. Using cords and plugs safely b. Using electrical devices c. GFCI (ground fault circuit interrupters): Special Protection when working outdoors or in damp locations. It detects shock hazards and cut off the flow of current before you can be injury. d. Protecting Patients and Staff e. A Note on Personal Appliances

a. Killing the power b. Rescuing a shock victim c. Electrical fires d. Power outage