Thursday, December 12, 2019
Ph Meter Essay Example For Students
Ph Meter Essay A pH meter is an electronic instrument used to measure the pH (acidity or alkalinity) of a liquid (though special probes are sometimes used to measure the pH of semi-solid substances). A typical pH meter consists of a special measuring probe (a glass electrode) connected to an electronic meter that measures and displays the pH reading. The probe The pH probe measures pH as the activity of hydrogen ions surrounding a thin-walled glass bulb at its tip. The probe produces a small voltage (about 0. 06 volt per pH unit) that is measured and displayed as pH units by the meter. For more information about pH probes, see glass electrode. Building a pH meter Because the circuitry of a basic pH meter is quite simple, it is possible to build a serviceable pH meter or pH controller with parts available at a neighborhood electronics retailer. (pH probes, however, are not so easily acquired and must usually be ordered from a scientific instrument supplier. ) For a walkthrough of how to build the simplest possible pH meteror a detailed description of how to build a pH meter/pH controller, see The pH Pages. The application note for the LM6001chip at the National Semiconductor web site also has a very simple demonstration circuit. Although the application note is for a specialty IC, serviceable pH meters can be built from any operational amplifier with a high input impedance, such as the common and inexpensive National Semiconductor TL082 or its equivalent. Calibration and use For very precise work the pH meter should be calibrated before and after each measurement. For normal use calibration should be performed at the beginning of each day. The reason for this is that the glass electrode does not give a reproducible e. m. f. over longer periods of time. Calibration should be performed with at least two standard buffer solutions that span the range of pH values to be measured. For general purposes buffers at pH 4 and pH 10 are acceptable. The pH meter has one control (calibrate) to set the meter reading equal to the value of the first standard buffer and a second control (slope) which is used to adjust the meter reading to the value of the second buffer. A third control allows the temperature to be set. Standard buffer sachets, which can be obtained from a variety of suppliers, usually state how the buffer value changes with temperature. The calibration process correlates the voltage produced by the probe (approximately 0. 06 volts per pH unit) with the pH scale. After each single measurement, the probe is rinsed with distilled water or deionized water to remove any traces of the solution being measured, blotted with a clean tissue to absorb any remaining water which could dilute the sample and thus alter the reading, and then quickly immersed in another solution. When not in use, the probe tip must be kept wet at all times. It is typically kept immersed in an acidic solution of around pH 3. 0. In an emergency, acidified tap water can be used, but distilled or deionised water must never be used for longer-term probe storage as the relatively ionless water sucks ions out of the probe through diffusion, which degrades it. Occasionally (about once a month), the probe may be cleaned using pH-electrode cleaning solution; generally a 0. 1 M solution of Hydrochloric Acid (HCl) is used , having a pH of about one. Types of pH meters pH meters range from simple and inexpensive pen-like devices to complex and expensive laboratory instruments with computer interfaces and several inputs for indicator (ion-sensitive, redox), reference electrodes, and temperature sensors such as thermoresistors or thermocouples. Cheaper models sometimes require that temperature measurements be entered to adjust for the slight variation in pH caused by temperature. Specialty meters and probes are available for use in special applications, harsh environments, etc. .ua249255fb11bf1e5781748513c264c34 , .ua249255fb11bf1e5781748513c264c34 .postImageUrl , .ua249255fb11bf1e5781748513c264c34 .centered-text-area { min-height: 80px; position: relative; } .ua249255fb11bf1e5781748513c264c34 , .ua249255fb11bf1e5781748513c264c34:hover , .ua249255fb11bf1e5781748513c264c34:visited , .ua249255fb11bf1e5781748513c264c34:active { border:0!important; } .ua249255fb11bf1e5781748513c264c34 .clearfix:after { content: ""; display: table; clear: both; } .ua249255fb11bf1e5781748513c264c34 { display: block; transition: background-color 250ms; webkit-transition: background-color 250ms; width: 100%; opacity: 1; transition: opacity 250ms; webkit-transition: opacity 250ms; background-color: #95A5A6; } .ua249255fb11bf1e5781748513c264c34:active , .ua249255fb11bf1e5781748513c264c34:hover { opacity: 1; transition: opacity 250ms; webkit-transition: opacity 250ms; background-color: #2C3E50; } .ua249255fb11bf1e5781748513c264c34 .centered-text-area { width: 100%; position: relative ; } .ua249255fb11bf1e5781748513c264c34 .ctaText { border-bottom: 0 solid #fff; color: #2980B9; font-size: 16px; font-weight: bold; margin: 0; padding: 0; text-decoration: underline; } .ua249255fb11bf1e5781748513c264c34 .postTitle { color: #FFFFFF; font-size: 16px; font-weight: 600; margin: 0; padding: 0; width: 100%; } .ua249255fb11bf1e5781748513c264c34 .ctaButton { background-color: #7F8C8D!important; color: #2980B9; border: none; border-radius: 3px; box-shadow: none; font-size: 14px; font-weight: bold; line-height: 26px; moz-border-radius: 3px; text-align: center; text-decoration: none; text-shadow: none; width: 80px; min-height: 80px; background: url(https://artscolumbia.org/wp-content/plugins/intelly-related-posts/assets/images/simple-arrow.png)no-repeat; position: absolute; right: 0; top: 0; } .ua249255fb11bf1e5781748513c264c34:hover .ctaButton { background-color: #34495E!important; } .ua249255fb11bf1e5781748513c264c34 .centered-text { display: table; height: 80px; padding-left : 18px; top: 0; } .ua249255fb11bf1e5781748513c264c34 .ua249255fb11bf1e5781748513c264c34-content { display: table-cell; margin: 0; padding: 0; padding-right: 108px; position: relative; vertical-align: middle; width: 100%; } .ua249255fb11bf1e5781748513c264c34:after { content: ""; display: block; clear: both; } READ: Observation EssayPocket pH meters are readily available today for a few tens of dollars that automatically compensate for temperature (ATC, Automatic Temperature Compensation) History The first commercial pH meters were built around 1936 by Radiometer in Denmark and by Arnold Orville Beckman in the United States. While Beckman was an assistant professor of chemistry at the California Institute of Technology, he was asked to devise a quick and accurate method for measuring the acidity of lemon juice for the California Fruit Growers Exchange (Sunkist). Beckmans invention helped him to launch the Beckman Instruments company (now Beckman Coulter). In 2004 the Beckman pH meter was designated an ACS National Historical Chemical Landmark in recognition of its significance as the first commercially successful electronic pH meter. In the 1970s Jenco Electronics of Taiwan designed and manufactured the first portable digital pH meter. This meter was sold under Cole-Palmers label. TRT989H II TH IIHI E-0 R -O ERG UY UG 90 The meter The meter circuit is no more than a voltmeter that displays measurements in pH units instead of volts. The input impedance of the meter must be very high because of the high resistance ââ¬â approximately 20 to 1000 M? ââ¬â of the glass electrode probes typically used with pH meters. The circuit of a simple pH meter usually consists of operational amplifiers in an inverting configuration, with a total voltage gain of about -17. The inverting amplifier converts the small voltage produced by the probe (+0. 059 volt/pH) into pH units, which are then offset by seven volts to give a reading on the pH scale. For example: â⬠¢At neutral pH (pH 7) the voltage at the probes output is 0 volts. * 17 + 7 = 7. â⬠¢At basic pH, the voltage at the probes output ranges from +0 to +0. 41 volts (7 * 0. 059 = 0. 41). So for a sample of pH 10 (3 pH units above neutral), 3 * 0. 059 = 0. 18 volts), the output of the meters amplifier is 0. 18 * 17 + 7 = 10. â⬠¢At acid pH, the voltage at the probes output ranges from -0. 41 volts to -0. So for a sample of pH 4 (3 pH units below neutral), -3 * 0. 059 = -0. 18 volts, the output of the meters amplifier is -0. 18 * 17 + 7 = 4. The two basic adjustments performed at calibration (see below) set the gain and offset of the inverting amplifier.
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