Lab Safety

Acquaint yourself with the location of the following safety items within the lab.

  a.  fire extinguisher
  b.  first aid kit
  c.  telephone and emergency numbers : Make sure that you have handy emergency phone numbers to call for assistance if necessary. The number for  emergencies is 511. (No need to dial 8 for this number). If any safety questions arise, consult the lab instructor or staff for guidance and instructions.

Observing proper safety precautions is important when working in the laboratory to prevent harm to yourself or others. The most
common hazard is the electric shock which can be fatal if one is not careful.

Electric shock

Shock is caused by passing an electric current through the human body. The severity depends mainly on the amount of current and is
less function of the applied voltage. The threshold of electric shock is about 1 mA which usually gives an unpleasant tingling. For
currents above 10 mA, severe muscle pain occurs and the victim can't let go of the conductor due to muscle spasm. Current between
100 mA and 200 mA (60 Hz AC) causes ventricular fibrillation of the heart and is most likely to be lethal.

What is the voltage required for a fatal current to flow? This depends on the skin resistance. Wet skin can have a resistance as low as
150 Ohm and dry skin may have a resistance of 15 kohm. Arms and legs have a resistance of about 100 Ohm and the trunk 200 Ohm.
This implies that 110 V can cause about 160 mA to flow in the body if the skin is wet and thus be fatal. In addition skin resistance falls
quickly at the point of contact, so it is important to break the contact as quickly as possible to prevent the current from rising to lethal
levels. Here are several safety precautions one should follow all the time:

B. Equipment grounding

Grounding is very important. Improper grounding can be the source of errors, noise and a lot of trouble. Please consult the section of
"Circuit Ground and Grounding Practice". Here we will focus on equipment grounding as a protection against electrical shocks.

Electric instruments and appliances have equipment cases that are electrically insulated from the wires that carry the power. The
isolation is provided by the insulation of the wires as shown in the figure a below. However, if the wire insulation gets damaged and
makes contact to the case, the case will be at the high voltage supplied by the wires. If the user touches the instrument he or she will feel
the high voltage. If, while standing on a wet floor, a user simultaneously comes in contact with the instrument case and a pipe or faucet connected to ground, a sizable current can flow through him or her, as shown in Figure b. However, if the case is connected to the ground by use of a third (ground)
wire, the current will flow from the hot wire directly to the ground and bypass the user as illustrated in figure c.

Equipment with a three wire cord is thus much safer to use. The ground wire (3rd wire) which is connected to metal case, is also connected to the earth ground (usually a pipe or bar in the ground) through the wall plug outlet.

Safety Precautions

-Do not work alone while working with high voltages or if you are using electrically operated machinary like a drill.

-Never leave high voltages on when you are not present.

-Keep one hand in your pocket when probing high voltage circuits or discharging capacitors.

-Make sure all high voltage connections are adequately taped or otherwise insulated to prevent accidental contact by you or neighboring students.

 -After switching power off, discharge any capacitors that were in the circuit. Do not trust supposedly discharged capacitors. Certain types of capacitors can  build up a residual charge after being discharged. Use a shorting bar across the capacitor, and keep it connected until ready for use.

-If you use electrolytic capacitors, do not

  • put excessive voltage across them
  • put ac across them
  • connect them in reverse polarity


    • -Take extreme care  using tools that can cause short circuits if accidental contact is made to other circuit elements. Only tools with insulated handles should be used.
     
    -If a person comes in contact with a high voltage, immediately shut off power. Do not attempt to remove a person in contact with a high voltage unless you are insulated from them.

    -In the event of an electrical fire do not use water. The lab fire extinguishers are specifically charged for electrical fires. Vacate the lab and close the door. Do not breath toxic smoke or fumes. Ring the fire alarm, if one is available.

     -Check wire current carrying capacity if you will be using high currents. The lab power wiring can only handle 15 Amperes continuously.

    -Make sure your leads are rated to withstand the voltages you are using. This includes instrument leads.  Common wire insulation is rated for 600 Volts.

    -Avoid simultaneous touching of any metal chassis used as an enclosure for your circuits and any pipes in the laboratory that may make contact with the earth, such as a water pipe. Use a floating voltmeter to measure the voltage from ground to the chassis to see if a hazardous potential difference exists.

    -Make sure that the lab instruments are at ground potential by using the ground terminal supplied on the instrument.

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    This page last modified 3/29/06