Stormspotter’s Blog

I was up rather late. Previous to the storm, I was surfing traffic exchanges and suddenly got a bad headache.  At the time, I thought that’s strange, it wasn’t there a minute ago.  Then my legs started aching.  My headache was getting worse.   I hear thunder and begin seeing a great lightning show.  That explains the headache. 

Now here is the funny part.  I decide to stand inside the storm door, video taping the lightning with one hand and holding the door open with the other as the lightning was at a distance.  There was some good CG.  Suddenly, I caught a glimpse of movement coming towards me.  My biggest fear, the fuzzy black spider or any other spider to be exact, is swinging his web right towards my face.   I closed the door quickly, trapping him inside.  Grabbing a tennis shoe, I attempted to chase him down.  After hitting him a couple times, he dropped to the floor either on my black throw rug, escaped through a small crack at the bottom of the door or is in the house lurking around.  Needless to say, that ended my video of the storm. 

The outflow boundary also hit at that point. Previous to the rain, my husband retrieved the lawn chair from the deck and the outside welcome mat took cover beside the deck.  Shortly thereafter, the high winds and heavy rain hit.  The wind was whipping the rain in all directions.  The smoker took flight and landed in 3 different areas of my front lawn.  The storm moved rapidly out of my area and things began to settle down. I continued to post in the aboutmidwestweather blog as it moved on through the city and points beyond.  Bedtime finally arrived at approximately 4:30 AM. 

We are under a slight risk of severe storms again today.  It begins again!

University of Oklahoma to Purchase Radar – First of Its Kind in United States

NORMAN, Okla. – A new weather radar – the first of its kind in the United States – is being constructed and located at the University of Oklahoma to enhance education, training, research and development and encourage future innovations. 

“The new radar will contribute tremendous potential to the meteorological community for development of weather-related information services that will benefit from co-location with the core weather radar programs on OU’s Research Campus,” said Lee Williams, OU vice president for research.  “Together they will create an environment with endless potential for the university, federal, state and private-sector entities,” he said.

An agreement between OU and Enterprise Electronics Corp. will initiate construction of the new, C-band, high-resolution, dual polarization radar, which is expected to be operational by late 2008.

This radar will further OU’s vision for its weather radar enterprise, which is to further the development of OU radar meteorology so that radar-derived information can benefit decisions about  the atmospheric and hydrologic environment worldwide, Williams said

The new radar will serve as a research and development testbed for the Atmospheric Radar Research Center, an interdisciplinary university center engaged in collaborative research to define the next generation of weather radar sensors.  The center offers an exceptional radar education for OU students based on a foundation of combining meteorology and engineering expertise and training from OU’s colleges of Atmospheric and Geographic Sciences, and Engineering.  With the acquisition of the new radar, students and researchers will be able to perform a variety of activities, such as testing new and enhanced algorithms and developing unique hardware designs.

“The addition of this radar is invaluable to the Atmospheric Radar Research Center and radar meteorology as a whole at OU,” said the center’s director, Robert Palmer. “The radar will help us collaborate even more with private weather companies and, in turn, will help continue to foster research and development between academia and the private sector.”

EEC will design and install the radar.  A wholly owned subsidiary of Weather Services International, EEC is the largest manufacturer of commercial weather radars, with systems operations across the globe from Algeria to Zaire. 

About EEC

Enterprise Electronics Corp., a wholly owned subsidiary of WSI, is recognized as the world leader in the meteorological radar field. Since its inception in 1971, the company has designed, manufactured and installed more than 900 radar systems worldwide. EEC developed the world’s first commercial Doppler weather radar system in 1981. The corporation’s range of radar systems is the product of years of experience, superior engineering and a top-ranked quality control process. EEC’s 53,000-square-foot facility is located in Enterprise, Ala.

 

About WSI Corp.

WSI Corp. is the world’s leading provider of weather-driven business solutions for professionals in the media, aviation and energy markets. For more than 30 years, WSI has focused on predicting, detecting and visualizing disruptive weather – from the severe weather that makes headlines a few weeks each year to the more subtle weather changes that affect the business operations and profits of its clients each day. WSI is headquartered in Andover, Mass., and is a wholly owned subsidiary of Landmark Communications.

–END–

On the Web:

University of Oklahoma                                                                                www.ou.edu

College of Atmospheric and Geographic Sciences                             www.ags.ou.edu

Atmospheric Radar Research Center                                                       arrc.ou.edu

University Research Campus                                                                      urc.ou.edu

WSI                                                                                                                        www.wsi.com

Enterprise Electronics Corporation                                                           www.eecradar.com

 

The material provided is intended as general information on how NOAA Weather Radio (NWR) can be used as an emergency warning tool for people who are deaf or hard of hearing. It is not intended to be an all inclusive listing of how the system can be used, what products are available, or an endorsement of any product or vendor listed herein.

In several cases there are complete off-the-shelf NWR receiver based systems available that will perform the required emergency warning function as they come from the box. In some cases, where a home alerting system is already in place, the NWR receiver can be connected to the existing alerting system, much the same as a door bell, smoke detector, or other sensor. In other cases, persons with some electronic skills can purchase the NWR receiver and other components and assemble them into a system designed to meet their own special needs.

In simple systems, alarm devices can be directly connected (hardwired) to the output of the NWR receiver. In more complex installations, using wireless and wired remote modules, connections are made through devices that allow more remote and versatile placement of alarms. Alarms may require external power from batteries or modular power supplies. Care should be taken that the complete alerting system works when commercial power has failed. See the block diagram (below) for system layouts.

The NOAA National Weather Service (NWS) does not guarantee the proper operation of any of the equipment and systems listed herein and is not liable for any damages as a result of non-receipt of alarms, alerts, or warnings from these systems. Inclusion of a product in this document does not imply endorsement by the NWS.

The following are general questions regarding use of NWR by people who are deaf or hard of hearing:

1. QUESTION: Why should I be interested in NOAA Weather Radio (NWR)?

2. QUESTION: What good is a radio to people who are deaf or hard of hearing?

3. QUESTION: How does it work?

4. QUESTION: What should I do when I receive a Warning from NWR?

5. QUESTION: Where can I get additional information about the event that caused the Warning to be issued?

6. QUESTION: Where can I get the necessary equipment and what does it cost?

7. QUESTION: What should I do if I’m interested in using NWR to get warnings of life threatening weather or other hazards?

8. QUESTION: Where can I buy an NWR receiver and accessories for people who are deaf and hard of hearing?

9. QUESTION: Is anything being done to improve the delivery of warnings of life threatening events to people who are deaf and hard of hearing?

 

1. ANSWER: Warnings provided by NWR can save your life during periods of local severe weather or other life threatening hazard conditions

2. ANSWER: The voice broadcast of NWR is of no value to people who are deaf and of limited value to many people who are hard of hearing - very little of the audio information broadcast can be understood by individuals with moderate to severe hearing loss.

However, other non-verbal information is imbedded in these broadcasts that can provide timely, critical warnings of life threatening events to people who are deaf or hard of hearing.

The NWS uses something called Specific Area Message Encoding (SAME) technology to send warnings of imminent severe weather or other hazard conditions from any of 122 Weather Forecast Offices directly into homes, offices, public buildings, churches, hospitals, nursing homes, and to many other locations using the National NWR network of transmitter stations. At least 97% of the American population is covered by NWR. The NWS is working toward a coverage level of 95% in every State.

Special NWR SAME radio receivers can be programmed to set off an alarm for specific events (tornado, flash flood, toxic spill, evacuate, etc.) and specific locations (your county) of interest to you, the listener. Some receivers are also equipped with special output connectors that activate alerting devices - bed shakers, pillow vibrators, sirens, and strobe lights or other alerting systems.

Those who use hearing aids or cochlear implants equipped with telecoils may also be able to use Aloop technology to listen to NWR broadcasts. Many receivers are equipped with external output connectors that will accept a Aneckloop. The Aneckloop creates an electromagnetic field that couples the NWR receiver to the telecoil in the hearing aid or cochlear implant, allowing the user to hear the broadcast. FM, infrared, and loop based Assistive Listening Devices can also be used. There are also some hearing aids and cochlear implants with adapter cables that can connect directly to the output of an NWR receiver.

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3.ANSWER: Forecasters at your local NWS Weather Forecast Office (WFO) decide that a severe weather event is occurring or about to occur, or local authorities determine that a hazardous event (nuclear power plant problem, a chemical or biological accident, etc.) has occurred and is a threat to the local populace. The information is immediately input into a computer at the local WFO and immediately broadcast by NWR transmitters that cover the areas at risk. Digital codes are added to each broadcast identifying the event (tornado, flash flood, local civil emergency, etc.) and the location (Montgomery, Prince Georges, and Anne Arundel Counties). When the Warning is received by an NWR SAME receiver, the receiver turns itself on, sounds an alarm, activates a warning light, writes a short message (TORNADO) on the display, and activates any external devices (strobe lights, sirens, vibrators, etc.) connected to the receiver.

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4. ANSWER: If the Warning is for a Tornado or Flash Flood you should immediately take steps to protect yourself. Every household should have an emergency plan in place that includes pre-established actions that need to be taken to lessen the likelihood of injury or death. These may include moving to the basement, a special safe room, or lower, interior levels of your home during a tornado or evacuating to higher ground along a pre-established, safe route during a flash flood. Household emergency plans can be developed with assistance from your local, county, or state emergency management office and or the Federal Emergency Management Agency.

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5. ANSWER: The NWR SAME Warning message broadcast you receive also triggers the Emergency Alert System at your local television stations. The message is also immediately available on the internet at sites accessible from the NWS Home Page at www.weather.gov. Either or both of these sources of text information can be monitored to get additional information, if you can do so without putting yourself at risk. There are also numerous sources of emergency information supplied by Email by various commercial telecommunication service providers on cell phones, pagers, and other personal digital devices, however, these may not be as timely as the NWS services.

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6. ANSWER: NWR SAME receivers with features useful to people who are deaf and hard of hearing, such as an output to activate external devices, an LCD display, and battery back-up power are manufactured and/or sold by several companies, including Radio Shack, Midland, Recom, Homesafe, and First Alert. Connecting some of them to external alarm devices requires knowledge of electronics and some electronic technician skills for proper installation. However, there are systems that have been assembled, tested, packaged, and marketed by Silent Call, Harris Communications, Compu-TTY, and Homesafe that are simple to install and use. The cost of a basic NWR SAME receiver is $50 to $90. Systems packaged with external alarm devices start at $100.

The Consumer Electronics Association (CEA) and NOAA collaborated on the development of an industry standard and a certification program for Public Alert (NWR capable) electronic devices that include displays and external alarms useful to deaf and hard of hearing people. Purchasing a Public Alert certified NOAA Weather Radio assures that you are getting a high quality receiver, however, you still need to make sure it works for you in your location and that it is able to activate any external alarms you want to use.

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7. ANSWER: Satisfy yourself that your area is vulnerable to weather or hazard conditions that warrant expenditure for an emergency warning system. The National Weather Service believes that NWR receivers should be as common as smoke detectors. Visit the NWS web site at www.weather.gov/nwr to learn more about NWS and NWR and to determine if the area in which you live is covered by NWR. The web site has very specific information, including coverage maps, state and county listings, and codes needed to program receivers.

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8. ANSWER:

Contact any of the vendors listed below:

Vendors of NWR receivers packaged for Deaf and Hard of Hearing People

Silent Call - 800-572-5227 - www.silent-call.com
(Download catalog, page 12-14)

Harris Communications - 800-825-6758 - www.harriscomm.com
(Search on Weather)

Homesafe, Inc. - 800-607-6737 - www.homesafeinc.com

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More NWR Alerting Equipment

9. ANSWER: Yes, there are currently efforts under way that will have a direct impact on warning systems to serve the deaf and hard of hearing.

The NOAA Weather Wire Service (NWWS) provides the direct delivery of text warning messages via Email by subscription. This provides Email delivery to any device (pager, cell phone, PDA, PC) capable of receiving text Email. Messages are selected by event type (tornado, flash flood, etc.) and issuing office (Washington, DC, New York City, etc.) and can be used to supplement NWR SAME warnings or to get specific information on severe weather anywhere in the country.

NOAA and the Consumer Electronics Association developed a standard (CEA-2009) and a certification program (Public Alert) based on NWR SAME technology. Most Public Alert certified devices are able to provide an alarm output that can drive devices to warn the deaf and hard of hearing. Public Alert certified devices are currently available from a number of manufacturers.

NOAA NWS has initiated a Weather Radio Improvement Program that includes greatly improved access for people who are deaf or hard of hearing.

All of these innovations have direct, significant application to deaf and hard of hearing warning improvement.

NWR Alerting Equipment

NWR Receivers with NWR SAME and an Alarm Output

Special receivers that can tune to NWR frequencies and trigger an auxiliary output on the basis of a received All Hazards warning from the NWS for a specific event in a specific state and county. Items with an asterisk (*) can be purchased as a system with external alarms (bad shaker, strobe, siren, etc.). Items in bold type are Public Alert Certified. Items in italics are out of production, but still may be available.

First Alert WX-167 Homesafe 2000HS* Midland 74-200
Homesafe 2005HS* First Alert WX-67 Radio Shack Model 250
Radio Shack Model 262 Midland WR-30 Radio Shack Model 258
Midland WR-300 Midland WR-100 Radio Shack Model 261
Reecom R-1650 First Alert WX-167 Radio Shack Model 249
Silent Call WX-67S* Midland R-300 Reecom-1630

Power Module Interface or Signaler: Converts the output of the NWR SAME receiver into a signal that is carried by electrical wiring in the home or by means of a wireless transmission that can be received anywhere in the home.

Radio Shack (X-10 Powerhouse Modules) Alertmaster AM-AX, AM-DX
Sonic Alert DS 700 Silent Call X67T*
Silent Call SC-DOT1003-2 Compu-TTY KA300TX

Remote Modules or Receiver: Receives the signal from a Power Interface or Signaler and coverts it into something that can activate an internal or external alarm.

Radio Shack (X-10 Powerhouse Modules) Alertmaster AM-RX2
Sonic Alert SA 201 & 101 Compu-TTY KA300RX
Silent Call SC-REC09214, SC- REC1001-N

Alarm Devices: Converts the alarm signal into visual, audio, or mechanical form that is more easily sensed by a person with a hearing disability. (Some of these do not meet Americans with Disabilities Act requirements, but may be useful in special circumstances.)

Strobe Light
Radio Shack 49-527 Homesafe Kit*
Harris HAL-2737 First Alert WX-TRS*
Harris DATA-1005 Reecom R1603
Silent Call X67-S* Midland 18-STR

Siren
Radio Shack 49-490 or 49-488

Bed /Pillow Shaker
Harris SA-SS120V, SS-SS12V , NFS-BV6670
Silent Call X67-V*, Homesafe Kit*

Appliance module
Radio Shack (X-10 Powerhouse Modules)

The above are available from the sources listed below:

Radio Shack - See local store
www.radioshack.com

Harris Communications 1-800-825-6758*
www.harriscomm.com

NFSS Communications 1-888-589-6670
www.nfss.com

Potomac Technology 1-800-433-2838*
www.potomactech.com

Homesafe, Inc. 1-800-607-6737*
www.homesafeinc.com*

Midland Consumer Radio 1-800-241-8500
www.midlandradio.com

Silent Call 1-800-572-5227*
www.silentcall.com*

Compu-TTY 1-817-738-2485 or 1970 (TTY)*
www.computty.com*

Sima Products 1-800-345-7462*
www.simacorp.com*

*Vendors of Silent Call, Homesafe, Compu-TTY, and First Alert packaged systems for the deaf and hard of hearing.

Other websites for NOAA Weather Radios:

www.noaaweatherradiostore.com*

www.weatherconnection.com

The National Weather Service does not guarantee the proper operation of any of the equipment or systems listed herein and is not liable for any damages as a result of non-receipt of alarms, alerts, or warnings from these systems. Inclusion of a product in this document does not imply endorsement by the NWS.

MESONET TICKER … MESONET TICKER … MESONET TICKER … MESONET TICKER …
March 16, 2008     March 16, 2008     March 16, 2008     March 16, 2008

The OCS/Mesonet Ticker: You’ll love our atmosphere.

A CARL Is Born

 Our world has been graced by a number of great Carls. Where would our
 understanding of the mind and Self be without the tension of Carl Jung?
 And surely Carl Jung could appreciate the ironic duality of the great
 Carl Sagan’s simultaneous enthusiasm for exploration and introspection.
 Speaking of introspection, Sandburg turned the literary lens upon our
 own country in a way that has informed generations. Carl Rogers’s
 humanism has informed scores of developments in the last 75 years.

 And, of course, no weather-blog about Carls would be complete without
 a nod to the oh-so-Tickerly-named Carl Weathers, whose gripping
 portrayal of Apollo Creed inspired, uh, somebody.

 Well, today, we announce a new entry to this list of great Carls.
 Behold CARL, the newest Mesonet site at Lake Carl Blackwell. This
 week, CARL graduated from the Mesonet spare parts pile to a bona fide
 operational station. Here are CARL’s vital statistics:

   Site:  CARL (Lake Carl Blackwell)
   Locus: 5.0 miles east of Orlando, OK in Payne County
   Lat:   36.1473 deg N
   Lon:   97.2859 deg W
   Elev:  293 meters above sea level

 We expect CARL to live up to the world’s long line of successful
 Carls. So, if you don’t mind, we want to take this opportunity to
 speak directly to CARL.

 (aside to Ticker Effects Crew: cue something dramatic, like Pomp and
  Circumstance or Wake Up the Echoes. Start faintly, then build for
  effect as our message grows more dramatic.)

   CARL, you’re in the real world now, there are -wait, just a second-

 (guys, I said cue some dramatic music)

   Sorry about that. Where were we?

   CARL, you are observing the real world now, there are no do-overs
   like back in the calibration lab. Everything you say counts now,
   unless the QA meteorologists figure out you’re lying. You alone are
   the voice of western Payne County. Well, actually, MARE has been the
   voice of western Payne County for 14 years now, but you can be a
   great helper. Don’t end up like GRAN or TULL or your anagrammatic
   kindred CLAR (although some would argue that CLAR’s failures were
   the result of a bad environment). Follow the lead of noble, reliable
   stations like LAHO, HOBA and TALI.

   Keep your soil probes planted firmly in the ground and always stand
   straight and tall, but no taller than precisely ten meters, or you
   will be out of compliance. And stay true to the atmosphere, at least
   within an acceptable and pre-determined margin of error.

   This opportunity is yours, CARL. Yours to change the world, one
   five-minute observation at a time. Think of all the drylines and
   pre-frontal troughs you’ll resolve, CARL! Think of all the micro-,
   macro-, and heat-bursts you’ll discover! Oh, the places your data
   will go, CARL!

 (crescendo, daggoneit, CRESCENDO!)

   Report the world, CARL! Count every drop, degree-day and dewpoint
   surge!

   May the wind always blow directly in your face, CARL, and may the
   sun shine brightly into your single, laterally-mounted, aluminum-
   shielded photo-voltaic eye. Because if either of these were untrue,
   you’d be doing a pretty lousy job of reporting wind direction, or
   a bird will have defiled your pyranometer, respectively.

 Carpe Auster, CARL.

March 16 in Oklahoma History:
  Record Maximum  94 F at WEATHERFORD (1916)
  Record Minimum   4 F at BOISE CITY 2 E (1923)
  Record Precip 3.44″ at BURBANK (199
 +Record Snowfall 13.00″ at BLACKWELL 1 W (1970)
(Oklahoma History = since roughly 1895)
+ - May include hail or other forms of frozen precipitation

March 16 in Mesonet History*:
 Record Maximum       84 F at BEAV in 2003
 Record Minimum       11 F at BOIS in 2005
 Record Rainfall   3.01″ at CALV in 1998
* - Mesonet History = since 1994

=============================================================================
        >–@            |
         /\             |               The OCS/Mesonet Ticker
        /__\            |              http://ticker.mesonet.org/
 ____   |\  /|   O       |
/____\  | \/ |    \o___O |     The Ticker will be sent every business day
/____\  | /\ |    / |    |
/____\  |/__\|   O |     |     To subscribe or unsubscribe from the Ticker
/____\  |\  /|____||     |  or for questions about the Ticker or its content
 ||____| \/ |——     |         Phone or Email Deke Arndt at OCS
 ——| /\ |           |     Phone: 405-325-3076  Email: darndt@ou.edu
      _|/__\|_          |—————————————————-
     |        |         | -C- Copyright 2007 Oklahoma Climatological Survey

As reported by Greg Whitworth-used with permission

Tornado Safety City of Oklahoma City

The Oklahoma City Police Emergency Management Office provides the following information to help you and your family prepare for tornado season. Listed are some of the most frequently asked questions about tornadoes.

The basic facts

What is a tornado?

A tornado is a violent windstorm characterized by a twisting, funnel shaped cloud. It is produced by a thunderstorm and formed when cool air overrides a layer of warm air, forcing the warm air to rise rapidly. The City’s new network of emergency sirens reach farther than the system they replaced. But they aren’t a substitute for radio and television updates.Don’t count on a siren to wake you when you’re asleep, or to get your attention above the background noise of your home or car.If the weather looks threatening, turn on a TV or radio.

What is the difference between a tornado watch and a tornado warning?

The National Weather Service issues a tornado watch when tornadoes are possible in your area. Be alert for approaching storms. This is a good time to remind family members where the safest places within your home are located. Listen to the radio or television for further developments. A tornado warning is issued when a tornado has been sighted or indicated by weather radar. If a tornado warning is issued and the sky becomes threatening, move to your designated place of safety. Turn on a battery-operated radio and wait for further instructions.

When is tornado season?

Tornado season is generally March through August, although tornadoes can occur at any time of the year.

 Is there a time of day when tornadoes usually happen? Yes, tornadoes tend to occur in the afternoons and evenings. More than 80 per cent of all tornadoes strike between noon and midnight.

What are some tornado danger signs?

Dark, often greenish sky
Wall cloud
Large hail
Loud roar, similar to a freight train Are there other signs I should look for? Some tornadoes appear as a visible funnel extending only partially to the ground. Look for signs of debris below the visible funnel. Before a tornado hits, the wind may die down and the air may become very still. An approaching cloud of debris can mark the location of a tornado even if a funnel is not visible. Tornadoes generally occur near the trailing edge of a thunderstorm. It is not uncommon to see clear, sunlit skies behind a tornado.

Things to do now

If you have a storm shelter, register its location with the City.Registering your shelter’s location will let rescue workers know you have a shelter and where to find it if a disaster covers it with debris. Call the Action Center at 297-2535 to register your shelter. Have regular tornado drills with your family. Designate an area in your home as a shelter, and regularly practice having your family go there as if there were a tornado. Make sure your family knows the difference between a “tornado watch” and a “tornado warning.”

Have disaster supplies on hand.

Flashlight and extra batteries (do not use candles or open flame devices!)
Portable, battery operated radio and extra batteries
First aid kit and manual
Emergency food and water
Non-electric can opener
Essential medicines
Cash and credit cards
Sturdy shoes
A set of spare keys to vehicles
Personal identification
Camera with several rolls of film (for documenting your damage) Develop an emergency communications plan. Have a plan for getting back together in case family members are separated from one another during a tornado. Ask an out-of-state relative or friend to act as the family contact. After a disaster, it’s often easier to call long distance. Make sure everyone in the family knows the name, address and phone number of the contact person.

When it’s on the way

When a tornado is coming, you have a short amount of time to make life or death decisions. Advance planning and quick response are the keys to surviving.  

 

If you are at home:

Go to the basement, storm cellar, or the lowest level of the building. If there is no basement, go to an inner hallway or a small inner room without windows, such as a bathroom or closet. Get away from windows. Go to the center of the room. Stay away from corners because they tend to attract debris. Get under a piece of sturdy furniture such as a workbench or heavy table and hold on to it. Use your arms to protect your head and neck. If you are at work or school: Go to the basement or to an inside hallway at the lowest level. Avoid places with wide-span roofs such as auditoriums, cafeterias, large hallways, or shopping malls. Get under a piece of furniture such as a heavy table or desk and hold on to it. Use your arms to protect your head and neck. If you are outdoors: If possible, go inside a building. If shelter is not available or there is no time to go indoors, lie in a ditch or low-lying area or crouch near a strong building. Be aware of the potential for flooding. Use your arms to protect your head and neck. If you are in a car: Get out of the car immediately and take shelter in a nearby building. Never try to outdrive a tornado. Tornadoes can change direction quickly and can lift up a car or truck and toss it through the air. If there is no time to get indoors, get out of the car and lie in a ditch or low lying area away from the vehicle. Be aware of the potential for flooding.

Do not take cover under a bridge!

What should I do if I live in a mobile home?

Mobile homes are particularly vulnerable. A mobile home can overturn very easily even if precautions have been taken to tie the unit down. When a tornado warning is issued, take shelter in a building with a strong foundation. If shelter is not available, lie in a ditch or low-lying area a safe distance away from the unit.

After it’s passed

Help injured or trapped persons. Give first aid when appropriate. Don’t try to move the seriously injured unless they are in immediate danger of further injury. Call for help. Help your neighbors who may require special assistance, infants, the elderly, and people with disabilities. Turn on a radio or television to get the latest emergency information. Stay out of damaged buildings. Return home only when authorities say it is safe. Use the telephone only for emergency calls. Clean up spilled medicines, bleaches or gasoline or other flammable liquids as soon as possible. Leave the building if you smell gas or chemical fumes. Take pictures of the damage, both to the house and its contents, for insurance purposes.