Alerts Warnings issued by the Bureau of Meteorology Warnings     Fire Incidents issued by the TFS Incidents     Storm Storm Monitor issued by the HrVistaWeather Monitor
TASTAS WAWA NTNT SASA VICVIC ACTACT NSWNSW QLDQLD
 Current - Tasmainan Statewide - Warnings:   Provided by The Bureau of Meteorology
 Current - Storm Monitor - Tracker:   Provided by HRVistweather.com
        storm image   Tracking 1 Thunderstorm    Status:   storm image   Active - Tracking

 K-5096 tracked since 3:11 AM   Direction: ENE (62.6°) / Distance: 614 km. Storm is Weak and Steady
 Last Updated: 23/11/2014 @ 4:02:02
 Current - Tasmainan Statewide - Fire Related Alert Summaries:   Provided by The Tasmanian Fire Service (TFS)

    • No Alert Level. Advice. Watch and Act. Emergency Warning.
      Farrells Road, Reedy Marsh Fri, 21 Nov 2014 13:59:22 +1100
      ALERT LEVEL: No Alert Level
      Region: N
      LOCATION: Farrells Road, Reedy Marsh
      STATUS: Patrol
      TYPE: VEGETATION FIRE
      SIZE: 2.3 hectares
      Number of Vehicles:
      More Info: http://www.fire.tas.gov.au/a/8719
      RESPONSIBLE AGENCY: Tasmania Fire Service
      UPDATED: Fri, 21 Nov 2014 13:59:22 +1100

      No Alert Level. Advice. Watch and Act. Emergency Warning.
      Swanston Road, SWANSTON Wed, 19 Nov 2014 14:15:55 +1100
      ALERT LEVEL: No Alert Level
      Region: S
      LOCATION: Swanston Road, SWANSTON
      STATUS: Going
      TYPE: VEGETATION FIRE
      SIZE: Not Available
      Number of Vehicles:
      More Info: http://www.fire.tas.gov.au/i/222794
      RESPONSIBLE AGENCY: Tasmania Fire Service
      UPDATED: Wed, 19 Nov 2014 14:15:55 +1100

      No Alert Level. Advice. Watch and Act. Emergency Warning.
      Gillies Road, Saint Marys Fri, 21 Nov 2014 17:32:55 +1100
      ALERT LEVEL: No Alert Level
      Region: N
      LOCATION: Gillies Road, Saint Marys
      STATUS: Going
      TYPE: VEGETATION FIRE
      SIZE: 38 hectares
      Number of Vehicles:
      More Info: http://www.fire.tas.gov.au/a/8582
      RESPONSIBLE AGENCY: Tasmania Fire Service
      UPDATED: Fri, 21 Nov 2014 17:32:55 +1100

      No Alert Level. Advice. Watch and Act. Emergency Warning.
      Midland Highway, Conara Fri, 21 Nov 2014 17:30:23 +1100
      ALERT LEVEL: No Alert Level
      Region: N
      LOCATION: Midland Highway, Conara
      STATUS: Going
      TYPE: VEGETATION FIRE
      SIZE: 189 hectares
      Number of Vehicles:
      More Info: http://www.fire.tas.gov.au/a/8532
      RESPONSIBLE AGENCY: Tasmania Fire Service
      UPDATED: Fri, 21 Nov 2014 17:30:23 +1100

      No Alert Level. Advice. Watch and Act. Emergency Warning.
      Oakfords Road, Wattle Grove Thu, 20 Nov 2014 15:55:08 +1100
      ALERT LEVEL: No Alert Level
      Region: S
      LOCATION: Oakfords Road, Wattle Grove
      STATUS: Going
      TYPE: VEGETATION FIRE
      SIZE: 6 hectares
      Number of Vehicles:
      More Info: http://www.fire.tas.gov.au/a/8464
      RESPONSIBLE AGENCY: Tasmania Fire Service
      UPDATED: Thu, 20 Nov 2014 15:55:08 +1100

      No Alert Level. Advice. Watch and Act. Emergency Warning.
      Tasman Highway, Runnymede, Buckland and Woodsdale Rd Fri, 21 Nov 2014 15:28:06 +1100
      ALERT LEVEL: No Alert Level
      Region: S
      LOCATION: Tasman Highway, Runnymede, Buckland and Woodsdale Rd
      STATUS: Going
      TYPE: VEGETATION FIRE
      SIZE: 1401 Heactares
      Number of Vehicles:
      More Info: http://www.fire.tas.gov.au/a/8528
      RESPONSIBLE AGENCY: Tasmania Fire Service
      UPDATED: Fri, 21 Nov 2014 15:28:06 +1100

      No Alert Level. Advice. Watch and Act. Emergency Warning.
      Wilmot Road, Forth Thu, 20 Nov 2014 15:53:12 +1100
      ALERT LEVEL: No Alert Level
      Region: NW
      LOCATION: Wilmot Road, Forth
      STATUS: Patrol
      TYPE: VEGETATION FIRE
      SIZE: Not reported
      Number of Vehicles:
      More Info: http://www.fire.tas.gov.au/a/8497
      RESPONSIBLE AGENCY: Tasmania Fire Service
      UPDATED: Thu, 20 Nov 2014 15:53:12 +1100

      No Alert Level. Advice. Watch and Act. Emergency Warning.
      Gladstone Road, Pioneer Thu, 20 Nov 2014 15:52:55 +1100
      ALERT LEVEL: No Alert Level
      Region: N
      LOCATION: Gladstone Road, Pioneer
      STATUS: Patrol
      TYPE: VEGETATION FIRE
      SIZE: Not reported
      Number of Vehicles:
      More Info: http://www.fire.tas.gov.au/a/8498
      RESPONSIBLE AGENCY: Tasmania Fire Service
      UPDATED: Thu, 20 Nov 2014 15:52:55 +1100

      No Alert Level. Advice. Watch and Act. Emergency Warning.
      Woods Lake Dam, Interlaken Sat, 22 Nov 2014 16:00:33 +1100
      ALERT LEVEL: No Alert Level
      Region: S
      LOCATION: Woods Lake Dam, Interlaken
      STATUS: Patrol
      TYPE: VEGETATION FIRE
      SIZE: 18 hectares
      Number of Vehicles:
      More Info: http://www.fire.tas.gov.au/a/8512
      RESPONSIBLE AGENCY: Parks & Wildlife Service
      UPDATED: Sat, 22 Nov 2014 16:00:33 +1100

      No Alert Level. Advice. Watch and Act. Emergency Warning.
      Hays Lagoon, Emita Sat, 22 Nov 2014 16:32:22 +1100
      ALERT LEVEL: No Alert Level
      Region: N
      LOCATION: Hays Lagoon, Emita
      STATUS: Under Control
      TYPE: VEGETATION FIRE
      SIZE: 6 hectares
      Number of Vehicles:
      More Info: http://www.fire.tas.gov.au/a/8509
      RESPONSIBLE AGENCY: Parks & Wildlife Service
      UPDATED: Sat, 22 Nov 2014 16:32:22 +1100

      No Alert Level. Advice. Watch and Act. Emergency Warning.
      Hogans Road, Mathinna Fri, 21 Nov 2014 15:03:24 +1100
      ALERT LEVEL: No Alert Level
      Region: N
      LOCATION: Hogans Road, Mathinna
      STATUS: Patrol
      TYPE: VEGETATION FIRE
      SIZE: 40 hectares
      Number of Vehicles:
      More Info: http://www.fire.tas.gov.au/a/8318
      RESPONSIBLE AGENCY: Parks & Wildlife Service
      UPDATED: Fri, 21 Nov 2014 15:03:24 +1100

      No Alert Level. Advice. Watch and Act. Emergency Warning.
      Mud Walls Road, COLEBROOK Sun, 9 Nov 2014 05:55:32 +1100
      ALERT LEVEL: No Alert Level
      Region: S
      LOCATION: Mud Walls Road, COLEBROOK
      STATUS: Patrol
      TYPE: HAZMAT
      SIZE: Not Available
      Number of Vehicles:
      More Info: http://www.fire.tas.gov.au/i/222399
      RESPONSIBLE AGENCY: Tasmania Fire Service
      UPDATED: Sun, 9 Nov 2014 05:55:32 +1100

      No Alert Level. Advice. Watch and Act. Emergency Warning.
      Gardens Road, Binalong Bay Sat, 22 Nov 2014 16:11:16 +1100
      ALERT LEVEL: No Alert Level
      Region: N
      LOCATION: Gardens Road, Binalong Bay
      STATUS: Under Control
      TYPE: VEGETATION FIRE
      SIZE: Not reported
      Number of Vehicles:
      More Info: http://www.fire.tas.gov.au/a/8760
      RESPONSIBLE AGENCY: Parks & Wildlife Service
      UPDATED: Sat, 22 Nov 2014 16:11:16 +1100

      No Alert Level. Advice. Watch and Act. Emergency Warning.
      Treloggins Track / Stieglitz Fri, 21 Nov 2014 14:32:41 +1100
      ALERT LEVEL: No Alert Level
      Region: N
      LOCATION: Treloggins Track / Stieglitz
      STATUS: Patrol
      TYPE: VEGETATION FIRE
      SIZE: 155 hectares
      Number of Vehicles:
      More Info: http://www.fire.tas.gov.au/a/7572
      RESPONSIBLE AGENCY: Tasmania Fire Service
      UPDATED: Fri, 21 Nov 2014 14:32:41 +1100

    Cloud Base Information




    cloudbaseCU.php : Version 1.5 - copyright 2013 Silver Acorn Limited
    Date/Time : Sun, 23 Nov 2014 04:02:13 (Night)
    Time Zone : Australia/Hobart (GMT+11 hours)
    INPUT ITEM: RAW DATA -> DERIVED
        Current temp : 11.9 -> 11.9 °C
        Dewpoint : 11.0 -> 11.0 °C
        Rain Fall : 0.0 -> 0.0 mm
        Barometer : 1004.10 -> 1004 hPa
        Humidity : 94 -> 94 %
        Wind Speed : 1.6 -> 1.6 km/h
        Wind Dir : 283 -> 283 degrees
        Cloud Altitude : 382 -> 477 ft (ASL)
        Latitude : -43 -> S = Southern Hemisphere
        Season : -> Spring
        Moon Age : 0 -> 0 days
        Is daylight : 0 -> Night
        Realtime file Interval : 30 -> 30 Seconds
        Tag file time Interval : 1 -> 1 Minutes
    CUMULUS CONDITIONS
        Cumulus conditions not in use
        Zambretti # : 14 -> 14
    METAR CONDITONS - Metar Times UNC, Update Station times based on timezone setting
        $pathToMetFile : ./cache/
        Metar - Rawdata : 2014/11/22 16:30 YMHB 221630Z 24005KT 150V280 CAVOK 13/11 Q1003
        Metar - Trimmed : 221630Z 24005KT 150V280 CAVOK 13/11 Q1003
        Metar - Decoded : Not Raining; Sunny
        Now : 1416675733 seconds or Station Time of 04:02:13
        Metar report timestamp : 1416673800 seconds
        Age of File : 32.22 minutes
        When to update Metar : 1416672540 seconds (When station time ~ 03:09:00)
            (Metar report timestamp plus 39 mins refresh time)
        Next Download in : -53.22 Minutes (if  '-' then refresh page, if still '-' then download overdue!)
        Metar file : New File downloaded
        Note:- Metar updates are usually Hourly unless AUTO when they may update every 30 minutes
    OUTPUT DATA

        $showAGLASL : true
    Cloud Temp : 10 °C
    Background image file name : ./images/cb/cb-bg-00sprn.png
        $useWXrain : true
        $tagint : 1
        Last rain : 668 minutes ago
        $wxrain : false
    "useWXrain" results :-
        No rain in last 1 minutes -> Not raining
    SETTINGS
        $realtime : ./cloudbaseCU.txt
        $metarICAO : YMHB
        $pathToMetFile : ./cache/
        $tz : Australia/Hobart - The setting in this script, may be overidden by the Saratoga SITE setting
        $pathToImages : ./images/cb/
        $pathToMoonImages : ./images/cb/moon/
        $translate : false
        $switchSeasons : true
        $showCldSource : true
        $showCloudTemp : true
        $showCaption : true
        $showMoon : true
        $showScale : true
        $showWinsock : false
        $showWindDir : false
        $showWindSpd : false
        $showTemp : false
        $showHumidity : false
        $showBaro : false
        $alwaysShowCloud : false
        $useCUHeight : true
        $getMetar : true
        $metarRefresh : true
        $useMetarAtNight : true
        $onlyUseMetar : true
        $reportMistAt : 25 ft
        $stationAltitude : 95 ft

    How is ( Cumulus - Cloud Base ) Calculated

    This calculation is designed to give an approximate but calculated altitude for the base of cumulus clouds, based on this stations data.
    The formula for calculating the approximate base of the formed clouds is: Cloud Base Altitude = ((((temperature - dew point) / 4.5) * 1000) + measure station altitude).
    As a mass of air rises, particularly on warm and humid days, it expands in the lowering air pressure, causing the air mass to cool and greatly reducing the air's ability to hold moisture.
    At some point, the moisture in the air exceeds the value which that air mass can hold, forcing the water vapor to condense, forming clouds.
    The point at which air is cooled to the temperature that it can no longer hold its moisture is called the dew point.
    The rate at which air cools as it rises is averaged at 5.5�F per 1000 feet; the variable is the speed of the rising air mass.
    The dew point also decreases at about 1.0�F over the same distance. Thus the spread between the air temperature and dew point decreases by 4.5�F per 1000 feet.
    The altitude at which this spread becomes zero can be calculated using the stated formula.

    Convert F to C

    F:
    C:

    Cloud Types

    Introduction

    Clouds are classified into twelve types. The names used for the clouds are based on three factors: the altitude at which the cloud occurs, the shape of the cloud, and whether the cloud is producing precipitation. This tutorial will help you learn about the different cloud types so that you can make accurate observations.

    There are three altitude ranges, or cloud levels. The height of the cloud base determines a cloud’s level. Clouds with a base below 2,000 meters are considered low-level clouds. Clouds with a base between 2,000 and 6,000 meters are mid-level clouds. Those with a base above 6,000 meters are considered high-level clouds.

    In 1803, Luke Howard classified four main cloud types with Latin terms. Cumulus means “pile” and describes heaped, lumpy clouds. Cirrus means “curl of hair” and is used to name clouds that look like wispy locks of hair. Featureless clouds that form sheets are named stratus, meaning “layer.” Howard used the term nimbus, which means “cloud,” to name low, gray rain clouds.


    Low-Level Clouds

    These pictures show examples of low-level clouds. The Clouds and the Earth’s Radiant Energy System (CERES) satellite cannot distinguish between individual cloud types at this level, but calls all of them “low, water clouds.” There is a continuum among these low-level cloud types, ranging from overcast, to nearly overcast, to individual clouds. This range of low-level clouds is explained in more detail in the next sections.

    True stratus clouds are uniform and featureless. The sky looks flat and uniform in all directions, appearing white or gray rather than blue. Generally these clouds obscure the Sun so that its location cannot be pinpointed. When this condition occurs, the cloud is said to be opaque.

    Fog is a special kind of stratus cloud: one that is low enough to touch the ground. It offers students a good personal experience of what a cloud feels like. In addition, it allows students to experience some of the conditions necessary for cloud formation, such as water vapor and cool temperatures.

    Stratocumulus clouds have both layered and puffy characteristics. Cloud cover tends to be mostly cloudy to overcast, but distinct cloud pieces are visible, in contrast to the uniform and flat character of stratus clouds. There may be areas of clear blue sky, but the clouds appear to be part of a large cloud system. These clouds are common in marine and coastal areas.

    Cumulus clouds are puffy, individual clouds typically associated with fair weather. They are the most common type of cloud and are often described as having a popcorn-like or cotton ball appearance. They are made of water droplets and generally have sharp outlines. Cumulus clouds occur in a variety of shapes and sizes, and with a little imagination, you can see all sorts of interesting things in these clouds.

    Clouds that produce precipitation are designated with the Latin prefix nimbo-.

    Nimbostratus is a layered, uniform, rain cloud. A cloud can quickly change to or from nimbostratus; that is, it can quickly start or stop raining during your observations. In a situation like that, you can pick a cloud type and make a note in the comments about intermittent rain. These clouds are generally very dark, and are associated with large areas of continuous rain. Nimbostratus can also produce snow or sleet.

    Cumulonimbus clouds are convective, meaning that they are formed by the upward movement of warm air currents. They are accompanied by compensating downdrafts of cold air. These clouds are most common in warm and humid weather and can produce thunder, lightning, heavy rain, hail, strong winds, and tornadoes. They can extend through a large part of the atmosphere. They can even extend beyond the tropopause, which is the boundary between the troposphere (where we live and where all weather occurs) and the stratosphere (where the ozone layer is). Despite this range of cloud vertical development, as long as the base of the cloud is below 2,000 meters, it is considered a low-level cloud.


    Mid-Level Clouds

    There are two mid-level cloud types, designated by the prefix alto-: altocumulus (puffy) and altostratus (layered). Mid-level clouds may be made up of ice crystals at the higher altitudes, but they are more often composed of water droplets.

    Altocumulus clouds are a mid-level version of cumulus clouds, consisting of cloud puffs. This cloud type sometimes appears like dozens of small, loose bands or ripples like waves on a sea. These clouds are often associated with the approach of a weather front, and may be an indicator of rain on the way.

    Altostratus clouds are the mid-level version of stratus clouds. They are uniform and diffuse, with little appearance of individual cloud pieces. The sky appears gray or blue-gray, and sunlight is diffused, as though seen through water or frosted glass. When the cloud partially blocks the Sun in this way, the cloud is said to be translucent.


    High-Level Clouds

    High-level cloud types are identified with the prefix cirro-: cirrus (thin and wispy), cirrostratus (layered), and cirrocumulus (puffy). Because all high-level clouds are made of ice particles rather than water droplets, they have a fairly distinct appearance. The boundaries of ice clouds tend to be more diffuse, or fuzzier, than the generally sharp boundaries of water clouds. They can also produce optical effects such as halos and sun dogs.

    Cirrus clouds are the classic and distinct high-level cloud. They are sometimes called “mare’s tails” because they appear to be brushed across the sky and are hair-like in appearance. Curled ends are common in this cloud type. They are usually quite thin and wispy, and blue sky is visible through portions of the cloud. These clouds are generally white.

    Cirrostratus clouds are the high-level version of stratus. They are sheet-like, nearly transparent clouds that cover a large part of the sky. When these clouds are present, the Sun may appear to be surrounded by a colored halo due to refraction of light by the ice particles in the cloud.

    Cirrocumulus clouds are the high-level cumulus clouds. They are thin ice clouds that have a patchy or wavelike appearance.

    Contrails, or condensation trails, are clouds created by airplanes. They are also found at the high level. Students often mistakenly assume that contrails are smoke and exhaust from an airplane, but contrails are actually clouds formed when the tiny particles (aerosols) and warm water vapor in the plane’s exhaust combine with the ambient water vapor to form ice crystals. The presence and character of contrails can tell us about the state of the atmosphere along the plane’s flight path. If the air is very dry and there is not enough water vapor to condense, no cloud forms. If the air is a little moister, a contrail may form and quickly evaporate (which is called a short-lived contrail). If the air contains enough water vapor, a contrail may form and remain for hours (known as a persistent contrail), or even spread to cover very large areas. Researchers are very interested in these clouds that humans cause. When making cloud observations, you should therefore note the presence and number of contrails.


    Multi-Level Clouds

    Some scientists estimate that as much as half the time, more than one cloud level is present in the sky. When you observe multiple cloud levels, you should record the cloud information for each level of cloud that you see—but be careful to distinguish between different cloud levels and the possible occurrence of more than one layer of cloud within a given level. When more than one layer of stratus cloud occurs, for example, you may just note this in the comments.

    If a thick, overcast, low layer is present, then you obviously cannot observe anything about the presence or absence of upper level clouds. In situations like these, the surface and satellite observations are very complementary: the satellite observes from above and will see any upper layer clouds, and the observers on the ground can see the lower level clouds.


    Determining Cloud Level

    A good way to determine the level of cumulus clouds is to assess the size of the individual cloud elements. Low-level cumulus clouds are about the same size, or larger than, your fist held at arms’ length. One exception to this rule is when a small cumulus cloud is developing or evaporating. In that case, its direction or speed of motion may indicate that it is in the same layer as nearby larger cumulus clouds. Mid-level cumulus clouds are farther away and the individual cloud pieces appear substantially smaller, about the size of your thumb at arms’ length. High-level cumulus clouds are smaller still, with individual cloud pieces about the size of the nail on your little finger at arms’ length.

    Stratus clouds have no distinct cloud pieces to measure. For these clouds, a general rule is that cloud opacity tends to decrease with height. Thus, low-level clouds are generally thicker than mid-level clouds, and a high-level cirrostratus is very thin. Thus, by observing how much the cloud obscures the Sun, you can estimate the level of a stratus cloud.

    If there is precipitation, the chances are very good that you are dealing with a low-level cloud. Mid-level clouds occasionally precipitate, but this is a rare occurrence.



    A good little tutorial about Types Of Clouds.