Antilog table
[DOC File]Unit 4- Acids and Bases Part 2 - Mr. Nguyen's Website
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Ka = antilog ( ) = Find the Ka of Alizarin Yellow: Thymol Blue (A diprotic Indicator) You’ll notice that Thymol Blue appears twice on the Indicator Table: This is because Thymol Blue is a diprotic acid. Each time it loses a proton, it goes through a color change. We can call Thymol Blue (Tb) a weak acid H2Tb
[DOC File]Ionization of Water
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[H3O+] = antilog (-pH) = antilog (-2.69) [H3O+] = 2.0417 x 10-3 M (notice that the given pH limits us to 2SD’s, but keep more in your calculations.) Write out ionization equilibrium with an ICE TABLE. You can insert 2.0417 x 10-3 for equilibrium [H3O+]. And since our unknown is the initial [HCOOH], we put in an “Co” for the [I] of HCOOH:
[DOC File]Indicators
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Ka = antilog (-pKa) = antilog (-11.05) = 9 x 10-12 (1 SF because pH’s on Indicator Table are only to 1 decimal place.) This is because Thymol Blue is a diprotic acid. Each time it loses a proton, it goes through a color change. We can call Thymol Blue (Tb) a weak acid H2Tb. The equilibrium equation for …
[DOC File]Honors Chemistry - Council Rock School District
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Fill in the following table: [H3O+1] pH Acid or Base 1 x10 –1 1 x 10 –9 3.00 x 10 –4 Page 2. To convert pH to [H3O+1]: Formula: [H3O+1] = Antilog -pH . Calculator: Press the 2nd key, the log key, the (-) key, enter the pH, and press the enter key. Fill in the following table: [H3O+1] pH Acid or Base 2 11 5.22 All formulas to know:
[DOC File]Measuring Distances to Stars – Why the weird formulae
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Table of Contents. Units of Measurement ……………………………………………………………….2. Measuring Distance to Stars with examples ...
[DOC File]LH*RS – A Highly-Available Scalable Distributed Data Structure
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Given a primitive element ( ( GF(2f), we multiply two non-zero GF elements ( and ( as (·( = antilog((log((() + log( (()). We tabulate the logarithms and antilogarithms. There are 2f(1 entries in the logarithm table (one for each non-zero element) and twice as many in the antilogarithm table, one for each possible sum. By adding the logarithms ...
[DOC File]CHAPTER 15
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2. Using text Table 15.2, decide the direction of reaction for each of the following equations. a. H2O + H2O2 ⇌ H3O+ + HO2– b. HCl + HCO3– ⇌ H2CO3 + Cl– c. NH3 + HCl ⇌ NH4Cl. 3. For each of the following reactions, identify which is the Lewis acid and the Lewis base. a. BF3 + F– ( …
[DOC File]Topic 0 - Math Skills
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3. Press the (log) key for the antilog base 10 or the (ln) key for . the antilog base e. 4. Press the (=) button. C. Significant digits. 1. The number of decimal places in the entered number will be the . same as the number of warranted significant digits in the antilog. 2. If the result will be used in a subsequent calculation, be sure
[DOC File]Pace University Webspace
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Use 0.5 nm for the effective diameter of the ion. Compare the calculated value with Hg2+ obtained by interpolation of data from Table 9-1. = antilog (-0.0416) = 0.397 = 0.4. Table 9-1 indicates that = 0.38 when the ionic strength is 0.1, and that = 0.46 when the ionic strength is 0.085, = 0.38 + (0.015/0.050) (0.46 – 0.38) = 0.404 = 0.4
[DOC File]coursecontent.gvltec.edu
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Enter the distances in a table. ... Then take the antilog of the number obtained from the equation to get the base pair length of the DNA fragment. (Alternatively you may simply connect the dots in the figure and use this line to find the size of the restriction digested fragments.)
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