Maths-
General
Easy

Question

According to the data given in figure, x = ?

  1. 33°    
  2. 43°    
  3. 53°    
  4. 23°    

hintHint:

they are forming circle

The correct answer is: 43°


    w e space k n o w space t h a t space a n g l e space i n space a space c o m p l e t e space c i r c l e space i s space 360 degree
2 x plus plus 7 degree space plus space 3 x plus 1 degree space plus space 4 x minus 35 degree equals 360 degree left parenthesis t h e y space a r e space f o r m i n g space c o m p l e t e space a n g l e right parenthesis
9 x minus 27 degree equals 360 degree
9 x equals 360 degree plus 27 degree
9 x equals 387 degree
x equals 43 degree
x space i s space 43 degree

    Angle in complete circle is 3600    

    Related Questions to study

    General
    Maths-

    If ABCD is a square as shown in the figure then which of the following are adjacent sides ?

    if two vertices in a graph/diagram  are connected by an edge then they are adjacent vertices

    If ABCD is a square as shown in the figure then which of the following are adjacent sides ?

    Maths-General

    if two vertices in a graph/diagram  are connected by an edge then they are adjacent vertices

    General
    Maths-

    In the following figure, a pair of adjacent vertices is

    if two vertices in a graph/diagram are connected by an edge then are adjacent vertices

    In the following figure, a pair of adjacent vertices is

    Maths-General

    if two vertices in a graph/diagram are connected by an edge then are adjacent vertices

    General
    maths-

    Find the value of x from the following Venn diagram if

    Find the value of x from the following Venn diagram if

    maths-General
    parallel
    General
    Maths-

    In Venn diagram, left parenthesis A intersection C right parenthesis union left parenthesis B intersection C right parenthesis equals

    intersection of superset with subset is subset

    In Venn diagram, left parenthesis A intersection C right parenthesis union left parenthesis B intersection C right parenthesis equals

    Maths-General

    intersection of superset with subset is subset

    General
    chemistry-

    S1 : Generally square planar complexes show geometrical isomerism but do not exhibit optical isomerism because they do not possess planer of symmetry.
    S2 : capital delta subscript t end subscript equals fraction numerator 4 over denominator 9 end fraction capital delta subscript 0 end subscript
    S3 : In octahedral complexes each electron entering the t2g orbitals stabilizes the complex ion by 0.4 capital delta subscript 0 end subscript and each electron entering the e.gorbital destabilizes the complex by an amount of 0.6 Δ0.

    S1 : Generally square planar complexes show geometrical isomerism but do not exhibit optical isomerism because they do not possess planer of symmetry.
    S2 : capital delta subscript t end subscript equals fraction numerator 4 over denominator 9 end fraction capital delta subscript 0 end subscript
    S3 : In octahedral complexes each electron entering the t2g orbitals stabilizes the complex ion by 0.4 capital delta subscript 0 end subscript and each electron entering the e.gorbital destabilizes the complex by an amount of 0.6 Δ0.

    chemistry-General
    General
    chemistry-

    All the following complex show decreases in their weights when placed in a magnetic balance then the group of complexes having tetrahedral geometry is :
    i) Ni(CO)4
    ii) K[AgF4 ]
    iii) Na2 [Zn(CN)4 ]
    iv) K2 [PtCl4 ]
    v) [RhCl(PPh3)3 ]

    All the following complex show decreases in their weights when placed in a magnetic balance then the group of complexes having tetrahedral geometry is :
    i) Ni(CO)4
    ii) K[AgF4 ]
    iii) Na2 [Zn(CN)4 ]
    iv) K2 [PtCl4 ]
    v) [RhCl(PPh3)3 ]

    chemistry-General
    parallel
    General
    chemistry-

    N i C l subscript 2 end subscript stack stack ⟶ with K C N on top with H C N below complex A
    N i C l subscript 2 end subscript stack stack ⟶ with K C l on top with text  excess  end text below complex B
    A & B complexes have the co-ordination number 4.
    The IUPAC name of complexes ‘A’ & ‘B’ are respectively :

    N i C l subscript 2 end subscript stack stack ⟶ with K C N on top with H C N below complex A
    N i C l subscript 2 end subscript stack stack ⟶ with K C l on top with text  excess  end text below complex B
    A & B complexes have the co-ordination number 4.
    The IUPAC name of complexes ‘A’ & ‘B’ are respectively :

    chemistry-General
    General
    chemistry-

    On treatment of 100 mL 0.1 M Solution of CoCl3.6H2Owith excess AgNO3, 1.2 cross times 1022 ions are precipitated The complex is :

    On treatment of 100 mL 0.1 M Solution of CoCl3.6H2Owith excess AgNO3, 1.2 cross times 1022 ions are precipitated The complex is :

    chemistry-General
    General
    chemistry-

    How many EDTA (ethylenediaminetetraacetic acid) molecules are required to make an octahedral complex with a Ca2+ ion ?

    How many EDTA (ethylenediaminetetraacetic acid) molecules are required to make an octahedral complex with a Ca2+ ion ?

    chemistry-General
    parallel
    General
    chemistry-

    In Fe(CO)5, the Fe – C bond possesses :

    In Fe(CO)5, the Fe – C bond possesses :

    chemistry-General
    General
    chemistry-

    When degenerate d-orbitals of an iSol. ated atom/ion come under influence of magnetic field of ligands, the degeneracy is lost The two set t subscript 2 g end subscript open parentheses d subscript x y end subscript comma d subscript y z end subscript comma d subscript x z end subscript close parentheses and open parentheses d subscript z to the power of 2 end exponent end subscript comma d subscript x to the power of 2 end exponent minus y to the power of 2 end exponent end subscript close parentheses are either stabilized or destrabilized depending upon the nature of magnetic fieldIt can be expressed diagrammatically as:
    Value of CFSE depends upon nature of ligand and a spectrochemical series has been made experimentally, for capital delta is about 4/9 times to capital delta subscript 0 end subscript tetrahedral complexes, (CFSE for octahedral complex)This energy lies in visible region and i.e., why electronic transition are responsible for colour Such transitions are not possible with d0 and d10 configuration.
    Crystal field stabilization energy for [open square brackets C o F subscript 6 end subscript close square brackets to the power of 3 minus end exponentin terms of parameter Dq is – left parenthesis capital delta equals 10 D q right parenthesis

    When degenerate d-orbitals of an iSol. ated atom/ion come under influence of magnetic field of ligands, the degeneracy is lost The two set t subscript 2 g end subscript open parentheses d subscript x y end subscript comma d subscript y z end subscript comma d subscript x z end subscript close parentheses and open parentheses d subscript z to the power of 2 end exponent end subscript comma d subscript x to the power of 2 end exponent minus y to the power of 2 end exponent end subscript close parentheses are either stabilized or destrabilized depending upon the nature of magnetic fieldIt can be expressed diagrammatically as:
    Value of CFSE depends upon nature of ligand and a spectrochemical series has been made experimentally, for capital delta is about 4/9 times to capital delta subscript 0 end subscript tetrahedral complexes, (CFSE for octahedral complex)This energy lies in visible region and i.e., why electronic transition are responsible for colour Such transitions are not possible with d0 and d10 configuration.
    Crystal field stabilization energy for [open square brackets C o F subscript 6 end subscript close square brackets to the power of 3 minus end exponentin terms of parameter Dq is – left parenthesis capital delta equals 10 D q right parenthesis

    chemistry-General
    General
    chemistry-

    When degenerate d-orbitals of an iSolated atom/ion come under influence of magnetic field of ligands, the degeneracy is lost The two set t subscript 2 g end subscript open parentheses d subscript x y end subscript comma d subscript y z end subscript comma d subscript x z end subscript close parentheses and open parentheses d subscript z to the power of 2 end exponent end subscript comma d subscript x to the power of 2 end exponent minus y to the power of 2 end exponent end subscript close parentheses are either stabilized or destrabilized depending upon the nature of magnetic fieldIt can be expressed diagrammatically as:
    Value of CFSE depends upon nature of ligand and a spectrochemical series has been made experimentally, for capital delta is about 4/9 times to capital delta subscript 0 end subscript tetrahedral complexes, (CFSE for octahedral complex)This energy lies in visible region and i.e., why electronic transition are responsible for colour Such transitions are not possible with d0 and d10 configuration.
    T i subscript left parenthesis a q right parenthesis end subscript superscript 3 plus end superscriptis purple while T i subscript left parenthesis a q right parenthesis end subscript superscript 3 plus end superscriptis colourless because –

    When degenerate d-orbitals of an iSolated atom/ion come under influence of magnetic field of ligands, the degeneracy is lost The two set t subscript 2 g end subscript open parentheses d subscript x y end subscript comma d subscript y z end subscript comma d subscript x z end subscript close parentheses and open parentheses d subscript z to the power of 2 end exponent end subscript comma d subscript x to the power of 2 end exponent minus y to the power of 2 end exponent end subscript close parentheses are either stabilized or destrabilized depending upon the nature of magnetic fieldIt can be expressed diagrammatically as:
    Value of CFSE depends upon nature of ligand and a spectrochemical series has been made experimentally, for capital delta is about 4/9 times to capital delta subscript 0 end subscript tetrahedral complexes, (CFSE for octahedral complex)This energy lies in visible region and i.e., why electronic transition are responsible for colour Such transitions are not possible with d0 and d10 configuration.
    T i subscript left parenthesis a q right parenthesis end subscript superscript 3 plus end superscriptis purple while T i subscript left parenthesis a q right parenthesis end subscript superscript 3 plus end superscriptis colourless because –

    chemistry-General
    parallel
    General
    chemistry-

    When degenerate d-orbitals of an iSolated atom/ion come under influence of magnetic field of ligands, the degeneracy is lost The two set t subscript 2 g end subscript open parentheses d subscript x y end subscript comma d subscript y z end subscript comma d subscript x z end subscript close parentheses and open parentheses d subscript z to the power of 2 end exponent end subscript comma d subscript x to the power of 2 end exponent minus y to the power of 2 end exponent end subscript close parentheses are either stabilized or destrabilized depending upon the nature of magnetic fieldIt can be expressed diagrammatically as:
    Value of CFSE depends upon nature of ligand and a spectrochemical series has been made experimentally, for capital delta is about 4/9 times to capital delta subscript 0 end subscript tetrahedral complexes, (CFSE for octahedral complex)This energy lies in visible region and i.e., why electronic transition are responsible for colour Such transitions are not possible with d0 and d10 configuration.
    For an octahedral complex, which of the following d-electron configuration will give maximum CFSE?

    When degenerate d-orbitals of an iSolated atom/ion come under influence of magnetic field of ligands, the degeneracy is lost The two set t subscript 2 g end subscript open parentheses d subscript x y end subscript comma d subscript y z end subscript comma d subscript x z end subscript close parentheses and open parentheses d subscript z to the power of 2 end exponent end subscript comma d subscript x to the power of 2 end exponent minus y to the power of 2 end exponent end subscript close parentheses are either stabilized or destrabilized depending upon the nature of magnetic fieldIt can be expressed diagrammatically as:
    Value of CFSE depends upon nature of ligand and a spectrochemical series has been made experimentally, for capital delta is about 4/9 times to capital delta subscript 0 end subscript tetrahedral complexes, (CFSE for octahedral complex)This energy lies in visible region and i.e., why electronic transition are responsible for colour Such transitions are not possible with d0 and d10 configuration.
    For an octahedral complex, which of the following d-electron configuration will give maximum CFSE?

    chemistry-General
    General
    chemistry-

    When degenerate d-orbitals of an iSolated atom/ion come under influence of magnetic field of ligands, the degeneracy is lost The two set t subscript 2 g end subscript open parentheses d subscript x y end subscript comma d subscript y z end subscript comma d subscript x z end subscript close parentheses and open parentheses d subscript z to the power of 2 end exponent end subscript comma d subscript x to the power of 2 end exponent minus y to the power of 2 end exponent end subscript close parentheses are either stabilized or destrabilized depending upon the nature of magnetic fieldIt can be expressed diagrammatically as: 
    Value of CFSE depends upon nature of ligand and a spectrochemical series has been made experimentally, for capital delta is about 4/9 times to capital delta subscript 0 end subscripttetrahedral complexes, (CFSE for octahedral complex)This energy lies in visible region and i.e., why electronic transition are responsible for colour Such transitions are not possible with d0 and d10 configuration.
    The d-orbitals, which are stabilised in an octahedral magnetic field, are –

    When degenerate d-orbitals of an iSolated atom/ion come under influence of magnetic field of ligands, the degeneracy is lost The two set t subscript 2 g end subscript open parentheses d subscript x y end subscript comma d subscript y z end subscript comma d subscript x z end subscript close parentheses and open parentheses d subscript z to the power of 2 end exponent end subscript comma d subscript x to the power of 2 end exponent minus y to the power of 2 end exponent end subscript close parentheses are either stabilized or destrabilized depending upon the nature of magnetic fieldIt can be expressed diagrammatically as: 
    Value of CFSE depends upon nature of ligand and a spectrochemical series has been made experimentally, for capital delta is about 4/9 times to capital delta subscript 0 end subscripttetrahedral complexes, (CFSE for octahedral complex)This energy lies in visible region and i.e., why electronic transition are responsible for colour Such transitions are not possible with d0 and d10 configuration.
    The d-orbitals, which are stabilised in an octahedral magnetic field, are –

    chemistry-General
    General
    chemistry-

    hen degenerate d-orbitals of an iSolated atom/ion come under influence of magnetic field of ligands, the degeneracy is lost The two set t subscript 2 g end subscript open parentheses d subscript x y end subscript comma d subscript y z end subscript comma d subscript x z end subscript close parentheses and open parentheses d subscript z to the power of 2 end exponent end subscript comma d subscript x to the power of 2 end exponent minus y to the power of 2 end exponent end subscript close parentheses are either stabilized or destrabilized depending upon the nature of magnetic fieldIt can be expressed diagrammatically as:

    Value of CFSE depends upon nature of ligand and a spectrochemical series has been made experimentally, for capital delta is about 4/9 times to capital delta subscript 0 end subscripttetrahedral complexes, (CFSE for octahedral complex)This energy lies in visible region and i.e., why electronic transition are responsible for colourSuch transitions are not possible with d0 and d10 configuration.
    The CFSE for open square brackets C o C l subscript 6 end subscript close square brackets to the power of 4 minus end exponent complex is 18000 cm–1The capital deltafor open square brackets C o C l subscript 4 end subscript close square brackets to the power of 2 minus end exponent will be –

    hen degenerate d-orbitals of an iSolated atom/ion come under influence of magnetic field of ligands, the degeneracy is lost The two set t subscript 2 g end subscript open parentheses d subscript x y end subscript comma d subscript y z end subscript comma d subscript x z end subscript close parentheses and open parentheses d subscript z to the power of 2 end exponent end subscript comma d subscript x to the power of 2 end exponent minus y to the power of 2 end exponent end subscript close parentheses are either stabilized or destrabilized depending upon the nature of magnetic fieldIt can be expressed diagrammatically as:

    Value of CFSE depends upon nature of ligand and a spectrochemical series has been made experimentally, for capital delta is about 4/9 times to capital delta subscript 0 end subscripttetrahedral complexes, (CFSE for octahedral complex)This energy lies in visible region and i.e., why electronic transition are responsible for colourSuch transitions are not possible with d0 and d10 configuration.
    The CFSE for open square brackets C o C l subscript 6 end subscript close square brackets to the power of 4 minus end exponent complex is 18000 cm–1The capital deltafor open square brackets C o C l subscript 4 end subscript close square brackets to the power of 2 minus end exponent will be –

    chemistry-General
    parallel

    card img

    With Turito Academy.

    card img

    With Turito Foundation.

    card img

    Get an Expert Advice From Turito.

    Turito Academy

    card img

    With Turito Academy.

    Test Prep

    card img

    With Turito Foundation.