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You will find several formulae in the Wikipedia article on "derivative".
Different figures have different formulae; here you will find formulae for the areas of some figures: http://en.wikipedia.org/wiki/Area#Formulae
Mainly, many magnitudes are related through different kinds of formulae. In advanced science you may have to derive your own formulae, but in more basic science, you just use existing formulae.Mainly, many magnitudes are related through different kinds of formulae. In advanced science you may have to derive your own formulae, but in more basic science, you just use existing formulae.Mainly, many magnitudes are related through different kinds of formulae. In advanced science you may have to derive your own formulae, but in more basic science, you just use existing formulae.Mainly, many magnitudes are related through different kinds of formulae. In advanced science you may have to derive your own formulae, but in more basic science, you just use existing formulae.
The answer will depend on the shape n question. There are different formulae for some simple shapes, more complicated formulae for complex shapes, and you probably have to estimate for really complicated shapes.The answer will depend on the shape n question. There are different formulae for some simple shapes, more complicated formulae for complex shapes, and you probably have to estimate for really complicated shapes.The answer will depend on the shape n question. There are different formulae for some simple shapes, more complicated formulae for complex shapes, and you probably have to estimate for really complicated shapes.The answer will depend on the shape n question. There are different formulae for some simple shapes, more complicated formulae for complex shapes, and you probably have to estimate for really complicated shapes.
There is no formula that covers all aspects of quadrilaterals. There are different formulae for its area, or its angles.There is no formula that covers all aspects of quadrilaterals. There are different formulae for its area, or its angles.There is no formula that covers all aspects of quadrilaterals. There are different formulae for its area, or its angles.There is no formula that covers all aspects of quadrilaterals. There are different formulae for its area, or its angles.
These words are synonyms.
Yes, borax (Na2B4O7) is a mineral of boron.
From tincal: Tincal is boiled with water and the so;ution is then filtered to remove impurities of sand, clay etc. The filterate is concentrated till crystallization begins and then cooled. The crystals of borax are separated by filteration. From colemanite (Ca2B6O11): Ca2B6O11 + 2Na2CO3 -----Heat-----» Na2B4O7 + 2NaBO2 + 2CaCO3↓ 4NaBO2 + CO2 -----------» Na2B4O7 + Na2CO3 The insoluble calcium carbonate is filtered off .The remaing solution containg of borax and sod.metaborate is then treated with CO2 to convert sod.metaborate to borax.The solution is now concentrated and cooled to crystallize borax. From boric acid : Borax is prepared from boric acid by boiling with soda ash. On cooling the solution, borax separates out. 4H3BO3 + Na2CO3 ------------» Na2B4O7 + 6H2O +CO2 ↑
What are the conventional formulae?
There are thousands of mathematical formulae.
Dogan Yildiran has written: 'The concentration of Turkish colemanite ore by attrition scrubbing and differential sizing'
The term borate minerals encompasses such boron-producing minerals as borax and kernite and includes colemanite, ulexite, and probertite
boric acid can be prepared by treating borax Na2B4O7 with H2SO4 or by passing SO2 through colemanite Ca2B5O11
Find in what ratio the line passing through (-5,3) and (8,6) is cut by y-axis.
You will find several formulae in the Wikipedia article on "derivative".
There are different formulae for calculating different kinds of energy.There are different formulae for calculating different kinds of energy.There are different formulae for calculating different kinds of energy.There are different formulae for calculating different kinds of energy.
Different figures have different formulae; here you will find formulae for the areas of some figures: http://en.wikipedia.org/wiki/Area#Formulae