Turito Academy

Test Prep

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The pinacol-pinacolone rearrangement involves dehydration of diols through the formation of carbocation intermediate which rearranges to more stable compound. <img 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" 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src="data:image/png;base64,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" alt="" /> The product  is

Solution for the question - the product is

The product is-Turito

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Alloys of which metal are light and strong and are used in the manufacture of aeroplane parts?

Solution for the question - alloys of which metal are light and strong and are used in the manufactureof aeroplane parts? mg fe n cr

Alloys of which metal are light and strong and are used in the -Turito

The right order of the solubility of sulphates of alkaline earth metals in water is

Solution for the question - the right order of the solubility of sulphates of alkaline earth metals inwater is mg > ca > ba > be > sr be > mg > ca > 5r > ba mg > be > ba > ca > sr

The right order of the solubility of sulphates of alkaline eart-Turito

Solution for the question - a gas reacts with cao and not with nahco_(3) is: n_(2) o_(2) r_(2) co_(2)

A gas reacts with cao and not with nahco_(3) is: -Turito

If point O is the centre of a circle circumscribed about a triangle ABC. Then <img src="data:image/png;base64,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" class="Wirisformula" alt="Error converting from MathML to accessible text." width="266" height="31" style="vertical-align:-1px" role="math" data-mathml='«math xmlns=¨http://www.w3.org/1998/Math/MathML¨»«mover»«mrow»«mi»O«/mi»«mi»A«/mi»«/mrow»«mover accent=¨false¨»«mrow/»«mo»§#175;«/mo»«/mover»«/mover»«mi»sin«/mi»«mo»§#160;«/mo»«mn»2«/mn»«mi»A«/mi»«mo»+«/mo»«mover»«mrow»«mi»O«/mi»«mi»B«/mi»«/mrow»«mover accent=¨false¨»«mrow/»«mo»§#175;«/mo»«/mover»«/mover»«mi»sin«/mi»«mo»§#160;«/mo»«mn»2«/mn»«mi»B«/mi»«mo»+«/mo»«mover»«mrow»«mi»O«/mi»«mi»C«/mi»«/mrow»«mover accent=¨false¨»«mrow/»«mo»§#175;«/mo»«/mover»«/mover»«mi»sin«/mi»«mo»§#160;«/mo»«mn»2«/mn»«mi»C«/mi»«mo»=«/mo»«/math»'/>

Solution for the question - if point o is the centre of a circle circumscribed about a triangle abc.then oa sin 2a+ob sin 2b+oc sin 2c= ( bar(oa)+ bar(ob)+ bar(oc))tan 2a

If point o is the centre of a circle circumscribed about a tria-Turito

Which pair of the following chlorides do not impart colour to the flame?

Solution for the question - which pair of the following chlorides do not impart colour to the flame? bacl_(2) and srcl_(2) cacl _(2) and bacl _(2) belr _(2) and mgcl_(2)

Which pair of the following chlorides do not impart colour to t-Turito

<img src="data:image/png;base64,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" class="Wirisformula" alt="A X equals B rightwards double arrow A to the power of negative 1 end exponent. A X equals A to the power of negative 1 end exponent B rightwards double arrow X equals A to the power of negative 1 end exponent B equals open square brackets table row cell 1 end cell row cell 3 end cell row cell 5 end cell end table close square brackets" width="323" height="70" style="vertical-align:-30px" role="math" data-mathml='«math xmlns=¨http://www.w3.org/1998/Math/MathML¨ »«mi»A«/mi»«mi»X«/mi»«mo»=«/mo»«mi»B«/mi»«mo»⇒«/mo»«msup»«mrow»«mi»A«/mi»«/mrow»«mrow»«mo»-«/mo»«mn»1«/mn»«/mrow»«/msup»«mo».«/mo»«mi»A«/mi»«mi»X«/mi»«mo»=«/mo»«msup»«mrow»«mi»A«/mi»«/mrow»«mrow»«mo»-«/mo»«mn»1«/mn»«/mrow»«/msup»«mi»B«/mi»«mo»⇒«/mo»«mi»X«/mi»«mo»=«/mo»«msup»«mrow»«mi»A«/mi»«/mrow»«mrow»«mo»-«/mo»«mn»1«/mn»«/mrow»«/msup»«mi»B«/mi»«mo»=«/mo»«mfenced open=¨[¨ close=¨]¨ separators=¨|¨»«mrow»«mtable»«mtr»«mtd»«mrow»«maligngroup/»«malignmark/»«mn»1«/mn»«/mrow»«/mtd»«/mtr»«mtr»«mtd»«mrow»«maligngroup/»«malignmark/»«mn»3«/mn»«/mrow»«/mtd»«/mtr»«mtr»«mtd»«mrow»«maligngroup/»«malignmark/»«mn»5«/mn»«/mrow»«/mtd»«/mtr»«/mtable»«/mrow»«/mfenced»«/math»'/>.

If for <img src="data:image/png;base64,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" class="Wirisformula" alt="A X equals B comma" width="54" height="15" style="vertical-align:-3px" role="math" data-mathml='«math xmlns=¨http://www.w3.org/1998/Math/MathML¨ »«mi»A«/mi»«mi»X«/mi»«mo»=«/mo»«mi»B«/mi»«mo»,«/mo»«/math»'/> <img src="data:image/png;base64,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" class="Wirisformula" alt="B equals open square brackets table row cell 9 end cell row cell 52 end cell row cell 0 end cell end table close square brackets" width="69" height="70" style="vertical-align:-30px" role="math" data-mathml='«math xmlns=¨http://www.w3.org/1998/Math/MathML¨ »«mi»B«/mi»«mo»=«/mo»«mfenced open=¨[¨ close=¨]¨ separators=¨|¨»«mrow»«mtable»«mtr»«mtd»«mrow»«maligngroup/»«malignmark/»«mn»9«/mn»«/mrow»«/mtd»«/mtr»«mtr»«mtd»«mrow»«maligngroup/»«malignmark/»«mn»52«/mn»«/mrow»«/mtd»«/mtr»«mtr»«mtd»«mrow»«maligngroup/»«malignmark/»«mn»0«/mn»«/mrow»«/mtd»«/mtr»«/mtable»«/mrow»«/mfenced»«/math»'/> and <img src="data:image/png;base64,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" class="Wirisformula" alt="A to the power of negative 1 end exponent equals open square brackets table row 3 cell negative fraction numerator 1 over denominator 2 end fraction end cell cell negative fraction numerator 1 over denominator 2 end fraction end cell row cell negative 4 end cell cell rightwards arrow over short leftwards arrow rightwards arrow over short leftwards arrow rightwards arrow over short leftwards arrow rightwards arrow over short leftwards arrow rightwards arrow over short leftwards arrow rightwards arrow over short leftwards arrow fraction numerator 3 over denominator 4 end fraction end cell cell fraction numerator 5 over denominator 4 end fraction end cell row 2 cell negative fraction numerator 1 over denominator 4 end fraction end cell cell negative fraction numerator 3 over denominator 4 end fraction end cell end table close square brackets" width="278" height="140" style="vertical-align:-64px" role="math" data-mathml='«math xmlns=¨http://www.w3.org/1998/Math/MathML¨ »«msup»«mrow»«mi»A«/mi»«/mrow»«mrow»«mo»-«/mo»«mn»1«/mn»«/mrow»«/msup»«mo»=«/mo»«mfenced open=¨[¨ close=¨]¨ separators=¨|¨»«mrow»«mtable»«mtr»«mtd»«mn»3«/mn»«/mtd»«mtd»«mo»-«/mo»«mfrac»«mrow»«mn»1«/mn»«/mrow»«mrow»«mn»2«/mn»«/mrow»«/mfrac»«/mtd»«mtd»«mo»-«/mo»«mfrac»«mrow»«mn»1«/mn»«/mrow»«mrow»«mn»2«/mn»«/mrow»«/mfrac»«/mtd»«/mtr»«mtr»«mtd»«mo»-«/mo»«mn»4«/mn»«/mtd»«mtd»«mo»⥂«/mo»«mo»⥂«/mo»«mo»⥂«/mo»«mo»⥂«/mo»«mo»⥂«/mo»«mo»⥂«/mo»«mfrac»«mrow»«mn»3«/mn»«/mrow»«mrow»«mn»4«/mn»«/mrow»«/mfrac»«/mtd»«mtd»«mfrac»«mrow»«mn»5«/mn»«/mrow»«mrow»«mn»4«/mn»«/mrow»«/mfrac»«/mtd»«/mtr»«mtr»«mtd»«mn»2«/mn»«/mtd»«mtd»«mo»-«/mo»«mfrac»«mrow»«mn»1«/mn»«/mrow»«mrow»«mn»4«/mn»«/mrow»«/mfrac»«/mtd»«mtd»«mo»-«/mo»«mfrac»«mrow»«mn»3«/mn»«/mrow»«mrow»«mn»4«/mn»«/mrow»«/mfrac»«/mtd»«/mtr»«/mtable»«/mrow»«/mfenced»«/math»'/>,then X is equal to

Solution for the question - if for ax=b, b=[[9],[52],[0]] and a^(-1)=[[3,-(1)/(2),-(1)/(2)],[-4,vec(z)rarr  rarr (3)/(4),(5)/(4)],[2,-(1)/(4),-(3)/(4)]] ,then x

If for ax=b, b=[[9],[52],[0]] and a^(-1)=[[3,-(1)/(2),-(1)/(2)]-Turito

The metal ion, that plays an important role in muscle contraction, is

Solution for the question - the metal ion, that plays an important role in muscle contraction, is ba^(2+) ca^(2+) mg^(2+) be^(2+)

The metal ion, that plays an important role in muscle contracti-Turito

Which one of the following order of stability is correct?

Solution for the question - which one of the following order of stability is correct? caco_(3) > baco_(3) > mgco_(3) > srco_(3) mgco_(3) > baco_(3) > srco_(3) >caco_(3)

Which one of the following order of stability is correct?-Turito

If ABCD is a Rhombus whose diagonals cut at the origin O then <img src="data:image/png;base64,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" class="Wirisformula" alt="OA with rightwards arrow on top plus OB with rightwards arrow on top plus OC with rightwards arrow on top plus OD with rightwards arrow on top equals" width="159" height="20" style="vertical-align:-1px" role="math" data-mathml='«math xmlns=¨http://www.w3.org/1998/Math/MathML¨»«mover accent=¨true¨»«mi»OA«/mi»«mo»§#8594;«/mo»«/mover»«mo»+«/mo»«mover accent=¨true¨»«mi»OB«/mi»«mo»§#8594;«/mo»«/mover»«mo»+«/mo»«mover accent=¨true¨»«mi»OC«/mi»«mo»§#8594;«/mo»«/mover»«mo»+«/mo»«mover accent=¨true¨»«mi»OD«/mi»«mo»§#8594;«/mo»«/mover»«mo»=«/mo»«/math»'/>

Solution for the question - if abcd is a rhombus whose diagonals cut at the origin o then vec(oa)+vec(ob)+ vec(oc)+ vec(od)= bc   ad   0   ab

If abcd is a rhombus whose diagonals cut at the origin o then v-Turito

Solution for the question - baryta water is: ba(oh)_(2) ca(oh)_(2) 800

Baryta water is:-Turito

Which sequence of reactions shows correct chemical relation between sodium and its compounds?

Solution for the question - which sequence of reactions shows correct chemical relation between sodiumand its compounds?

Which sequence of reactions shows correct chemical relation bet-Turito

Solution for the question - soda ash is chemically: na_(2)co_(3) (anhydrous) nahco_(3) naoh na_(2)co_(3)*h_(2)o

Soda ash is chemically:-Turito

V versus T curves at constant pressure <img src="data:image/png;base64,iVBORw0KGgoAAAANSUhEUgAAABIAAAARCAYAAADQWvz5AAAACXBIWXMAAA7EAAAOxAGVKw4bAAAABGJhU0UAAAAMyZLetQAAAKBJREFUeNpjYMAEP4D4PxR/AeJVQOzIQCJQAeILSHw2IHYB4vtArEWKQQFAvBSLeDIQl5BiUD0ODR1AnEOKQaDw8EMTEwXiW0AsTIpBIA2SSHxjID5KamAzAfEfaGy9gxrQjGYwUcAciPczUAFEAvF8ItSpAXEtWjJBAZOAOI0IgxZD1f3HpWAdEHuR4AOcBoECmIMaBpEKRg3CbwA6ZgAAJNEmhga+DpYAAABgdEVYdE1hdGhNTAA8bWF0aCB4bWxucz0iaHR0cDovL3d3dy53My5vcmcvMTk5OC9NYXRoL01hdGhNTCI+PG1zdWI+PG1pPlA8L21pPjxtbj4xPC9tbj48L21zdWI+PC9tYXRoPkR9VUQAAAAASUVORK5CYII=" class="Wirisformula" alt="P subscript 1 end subscript" width="18" height="17" style="vertical-align:-5px" role="math" data-mathml='«math xmlns=¨http://www.w3.org/1998/Math/MathML¨ »«msub»«mrow»«mi»P«/mi»«/mrow»«mrow»«mn»1«/mn»«/mrow»«/msub»«/math»'/> and <img src="data:image/png;base64,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" class="Wirisformula" alt="P subscript 2 end subscript" width="18" height="17" style="vertical-align:-5px" role="math" data-mathml='«math xmlns=¨http://www.w3.org/1998/Math/MathML¨ »«msub»«mrow»«mi»P«/mi»«/mrow»«mrow»«mn»2«/mn»«/mrow»«/msub»«/math»'/> for an ideal gas are show in fig. which is correct <img src="data:image/png;base64,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" alt="" width="191" height="174" />

Solution for the question - v versus t curves at constant pressure p_(1) and p_(2) for an ideal gas areshow in fig. which is correct all

V versus t curves at constant pressure p_(1) and p_(2) for an i-Turito

Diethyl sulphate in the presence of NaOH acts as alkylating agent, it causes alkylation of phenol to give ethyl phenyl ether which is also called phenetole.<img 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class="Wirisformula" alt="C subscript 6 H subscript 5 O H plus N a O H rightwards arrow C subscript 6 H subscript 5 O to the power of minus N a to the power of plus plus H subscript 2 O" width="298" height="19" style="vertical-align:-5px" role="math" data-mathml='«math xmlns=¨http://www.w3.org/1998/Math/MathML¨»«msub»«mi»C«/mi»«mn»6«/mn»«/msub»«msub»«mi»H«/mi»«mn»5«/mn»«/msub»«mi»O«/mi»«mi»H«/mi»«mo»+«/mo»«mi»N«/mi»«mi»a«/mi»«mi»O«/mi»«mi»H«/mi»«mo»§#8594;«/mo»«msub»«mi»C«/mi»«mn»6«/mn»«/msub»«msub»«mi»H«/mi»«mn»5«/mn»«/msub»«msup»«mi»O«/mi»«mo»-«/mo»«/msup»«mi»N«/mi»«msup»«mi»a«/mi»«mo»+«/mo»«/msup»«mo»+«/mo»«msub»«mi»H«/mi»«mn»2«/mn»«/msub»«mi»O«/mi»«/math»'/> <img 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" alt="" />

Phenol on treatment with diethyl sulphate in presence of <img src="data:image/png;base64,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" class="Wirisformula" alt="N a O H space" width="50" height="13" style="vertical-align:-1px" role="math" data-mathml='«math xmlns=¨http://www.w3.org/1998/Math/MathML¨»«mi»N«/mi»«mi»a«/mi»«mi»O«/mi»«mi»H«/mi»«mo»§#160;«/mo»«/math»'/>gives

Solution for the question - phenol on treatment with diethyl sulphate in presence of naoh gives diethyl etherdiphenyl etheranisolephenetole

Phenol on treatment with diethyl sulphate in presence of naoh-Turito

General formula for alcohols is <img src="data:image/png;base64,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" class="Wirisformula" alt="C subscript n H subscript left parenthesis 2 n plus 1 right parenthesis O H" width="115" height="20" style="vertical-align:-6px" role="math" data-mathml='«math xmlns=¨http://www.w3.org/1998/Math/MathML¨»«msub»«mi»C«/mi»«mi»n«/mi»«/msub»«msub»«mi»H«/mi»«mo»(«/mo»«/msub»«mn»2«/mn»«mi»n«/mi»«mo»+«/mo»«mn»1«/mn»«mo»)«/mo»«mi»O«/mi»«mi»H«/mi»«/math»'/> Primary alcohols have <img src="data:image/png;base64,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" class="Wirisformula" alt="negative C H subscript 2 O H g p" width="90" height="17" style="vertical-align:-5px" role="math" data-mathml='«math xmlns=¨http://www.w3.org/1998/Math/MathML¨»«mo»-«/mo»«mi»C«/mi»«msub»«mi»H«/mi»«mn»2«/mn»«/msub»«mi»O«/mi»«mi»H«/mi»«mi»g«/mi»«mi»p«/mi»«/math»'/> .Secondary

The characteristic group of secondary alcohol is:

Solution for the question - the characteristic group of secondary alcohol is: