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inconsistent Vertical Spacing between equation and text



The Next CEO of Stack OverflowVertical spacing between equations and textundertilde package provides inconsistent vertical spacing between nucleus and accentSpacing between equation and text inconsistent due to large equationsSpacing problem between equation and surrounding textInconsistent Vertical Spacing Using MulticolSpacing between equation and textEquation spacing and aligningInconsistent vertical space after first begin{equation*}Vertical spacing between text and equation/splitVertical spacing inside equation












0















I have some problems in spacing.
I just want to put equations in the text.
What I found is that the vertical spacing between the equation and text is not consistent.
Some is large and some is small. Both spacings above and below equation are not consistent.
How do I get consistent spacing in the entire thesis?
I can adjust spacing using vspace{baselineskip}.
But I am not sure the spacing is exactly the same or not. It doesnt seems good solution.
Here is my code.



documentclass[twoside]{utmthesis}
%According to the new manual, should not mixed single-side with two-side
printing
usepackage{graphicx}
usepackage{url}
%usepackage[pages=some]{background}
usepackage{lipsum}
usepackage{pdflscape}
usepackage{verbatim}
usepackage{textcomp}
usepackage{mhchem}
usepackage{amsmath}
usepackage{listings}
usepackage{graphicx}
usepackage{mwe}
usepackage{xr}
usepackage{siunitx}
usepackage{float}
usepackage{subfig}
newsavebox{bigleftbox}
usepackage{tikz}
usepackage{nameref}
%usepackage[printonlyused]{acronym}
usepackage{romannum}
usetikzlibrary{shapes.geometric, arrows}
usepackage{natbib}
letcitecitep
bibliographystyle{utmthesis-authordate}

begin{document}
subsection{1D numerical modeling of the SI-engine}
vspace{baselineskip}
The numerical models and related equations applied in the 1D engine
simulation are presented and briefly discussed.
subsubsection{Pipe}
vspace{baselineskip}
In one-dimension modeling of flow through the pipes, working fluid is
assumed that it is flowing in one-direction, instead of three direction (X,
Y, and Z). It seems plausible, as most fluid particles are moving mostly in
longitudinal direction rather than radial direction of the pipe. A one-
dimensional pipe flow is described by Euler equation which is given in
conservation form below.

begin{equation} label{Euler}
frac{partial mathbf{U}}{partial t} + frac{partial mathbf{F(U)}}
{partial x}= mathbf{S(U)}
end{equation}

$textbf{U}$ and $textbf{F}$ represent state vector and flux vector,
respectively which are represented as follows.

begin{equation}
mathbf{U}= begin{pmatrix}
rho \
rho cdot u \
rho cdot bar{C_v} cdot T + frac{1}{2} cdot rho cdot u^2 \
rho cdot w_j end{pmatrix},,, , ,,, mathbf{F}= begin{pmatrix}
rho cdot u \
rho cdot u^2 + p \
rho cdot (E+p) \
rho cdot u cdot w_j end{pmatrix}
end{equation}

With total energy, $E$ is given as below.

begin{equation} label{E}
begin{split}
E=rho cdot bar{C_v} cdot T + frac{1}{2} cdot rho cdot u^2
end{split}
end{equation}

The source term, $textbf{S}$ is divided into two different sub-source
terms.

begin{equation} label{S}
mathbf{S(U)}= mathbf{S_A(F(U))} + mathbf{S_R(U)}
end{equation}

$mathbf{S_A}$ is the source term caused by axial changes in the pipe cross
section.

begin{equation} label{Sa}
mathbf{S_A(F(U))}= - frac{1}{A} cdot frac{dA}{dx} cdot left(F +
begin{pmatrix}
0 \
-p \
0 \
0
end{pmatrix} right)
end{equation}

$mathbf{S_R}$ is the source term taking into account homogeneous chemical
reaction, friction, heat and mass transfer between gas and solid phase.

begin{equation} label{Sr}
mathbf{S_R(F(U))}= begin{pmatrix}
0 \
-frac{F_R}{V} \
frac{q_w}{V} \
M W_j cdot left(sumlimits_{i}^{R_{hom}} nu_{i.j} cdot
dot{r_i}right)end{pmatrix}
end{equation}

bibliography{reference}
end{document}


enter image description here









share







New contributor




Je Young Kim is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.

























    0















    I have some problems in spacing.
    I just want to put equations in the text.
    What I found is that the vertical spacing between the equation and text is not consistent.
    Some is large and some is small. Both spacings above and below equation are not consistent.
    How do I get consistent spacing in the entire thesis?
    I can adjust spacing using vspace{baselineskip}.
    But I am not sure the spacing is exactly the same or not. It doesnt seems good solution.
    Here is my code.



    documentclass[twoside]{utmthesis}
    %According to the new manual, should not mixed single-side with two-side
    printing
    usepackage{graphicx}
    usepackage{url}
    %usepackage[pages=some]{background}
    usepackage{lipsum}
    usepackage{pdflscape}
    usepackage{verbatim}
    usepackage{textcomp}
    usepackage{mhchem}
    usepackage{amsmath}
    usepackage{listings}
    usepackage{graphicx}
    usepackage{mwe}
    usepackage{xr}
    usepackage{siunitx}
    usepackage{float}
    usepackage{subfig}
    newsavebox{bigleftbox}
    usepackage{tikz}
    usepackage{nameref}
    %usepackage[printonlyused]{acronym}
    usepackage{romannum}
    usetikzlibrary{shapes.geometric, arrows}
    usepackage{natbib}
    letcitecitep
    bibliographystyle{utmthesis-authordate}

    begin{document}
    subsection{1D numerical modeling of the SI-engine}
    vspace{baselineskip}
    The numerical models and related equations applied in the 1D engine
    simulation are presented and briefly discussed.
    subsubsection{Pipe}
    vspace{baselineskip}
    In one-dimension modeling of flow through the pipes, working fluid is
    assumed that it is flowing in one-direction, instead of three direction (X,
    Y, and Z). It seems plausible, as most fluid particles are moving mostly in
    longitudinal direction rather than radial direction of the pipe. A one-
    dimensional pipe flow is described by Euler equation which is given in
    conservation form below.

    begin{equation} label{Euler}
    frac{partial mathbf{U}}{partial t} + frac{partial mathbf{F(U)}}
    {partial x}= mathbf{S(U)}
    end{equation}

    $textbf{U}$ and $textbf{F}$ represent state vector and flux vector,
    respectively which are represented as follows.

    begin{equation}
    mathbf{U}= begin{pmatrix}
    rho \
    rho cdot u \
    rho cdot bar{C_v} cdot T + frac{1}{2} cdot rho cdot u^2 \
    rho cdot w_j end{pmatrix},,, , ,,, mathbf{F}= begin{pmatrix}
    rho cdot u \
    rho cdot u^2 + p \
    rho cdot (E+p) \
    rho cdot u cdot w_j end{pmatrix}
    end{equation}

    With total energy, $E$ is given as below.

    begin{equation} label{E}
    begin{split}
    E=rho cdot bar{C_v} cdot T + frac{1}{2} cdot rho cdot u^2
    end{split}
    end{equation}

    The source term, $textbf{S}$ is divided into two different sub-source
    terms.

    begin{equation} label{S}
    mathbf{S(U)}= mathbf{S_A(F(U))} + mathbf{S_R(U)}
    end{equation}

    $mathbf{S_A}$ is the source term caused by axial changes in the pipe cross
    section.

    begin{equation} label{Sa}
    mathbf{S_A(F(U))}= - frac{1}{A} cdot frac{dA}{dx} cdot left(F +
    begin{pmatrix}
    0 \
    -p \
    0 \
    0
    end{pmatrix} right)
    end{equation}

    $mathbf{S_R}$ is the source term taking into account homogeneous chemical
    reaction, friction, heat and mass transfer between gas and solid phase.

    begin{equation} label{Sr}
    mathbf{S_R(F(U))}= begin{pmatrix}
    0 \
    -frac{F_R}{V} \
    frac{q_w}{V} \
    M W_j cdot left(sumlimits_{i}^{R_{hom}} nu_{i.j} cdot
    dot{r_i}right)end{pmatrix}
    end{equation}

    bibliography{reference}
    end{document}


    enter image description here









    share







    New contributor




    Je Young Kim is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
    Check out our Code of Conduct.























      0












      0








      0








      I have some problems in spacing.
      I just want to put equations in the text.
      What I found is that the vertical spacing between the equation and text is not consistent.
      Some is large and some is small. Both spacings above and below equation are not consistent.
      How do I get consistent spacing in the entire thesis?
      I can adjust spacing using vspace{baselineskip}.
      But I am not sure the spacing is exactly the same or not. It doesnt seems good solution.
      Here is my code.



      documentclass[twoside]{utmthesis}
      %According to the new manual, should not mixed single-side with two-side
      printing
      usepackage{graphicx}
      usepackage{url}
      %usepackage[pages=some]{background}
      usepackage{lipsum}
      usepackage{pdflscape}
      usepackage{verbatim}
      usepackage{textcomp}
      usepackage{mhchem}
      usepackage{amsmath}
      usepackage{listings}
      usepackage{graphicx}
      usepackage{mwe}
      usepackage{xr}
      usepackage{siunitx}
      usepackage{float}
      usepackage{subfig}
      newsavebox{bigleftbox}
      usepackage{tikz}
      usepackage{nameref}
      %usepackage[printonlyused]{acronym}
      usepackage{romannum}
      usetikzlibrary{shapes.geometric, arrows}
      usepackage{natbib}
      letcitecitep
      bibliographystyle{utmthesis-authordate}

      begin{document}
      subsection{1D numerical modeling of the SI-engine}
      vspace{baselineskip}
      The numerical models and related equations applied in the 1D engine
      simulation are presented and briefly discussed.
      subsubsection{Pipe}
      vspace{baselineskip}
      In one-dimension modeling of flow through the pipes, working fluid is
      assumed that it is flowing in one-direction, instead of three direction (X,
      Y, and Z). It seems plausible, as most fluid particles are moving mostly in
      longitudinal direction rather than radial direction of the pipe. A one-
      dimensional pipe flow is described by Euler equation which is given in
      conservation form below.

      begin{equation} label{Euler}
      frac{partial mathbf{U}}{partial t} + frac{partial mathbf{F(U)}}
      {partial x}= mathbf{S(U)}
      end{equation}

      $textbf{U}$ and $textbf{F}$ represent state vector and flux vector,
      respectively which are represented as follows.

      begin{equation}
      mathbf{U}= begin{pmatrix}
      rho \
      rho cdot u \
      rho cdot bar{C_v} cdot T + frac{1}{2} cdot rho cdot u^2 \
      rho cdot w_j end{pmatrix},,, , ,,, mathbf{F}= begin{pmatrix}
      rho cdot u \
      rho cdot u^2 + p \
      rho cdot (E+p) \
      rho cdot u cdot w_j end{pmatrix}
      end{equation}

      With total energy, $E$ is given as below.

      begin{equation} label{E}
      begin{split}
      E=rho cdot bar{C_v} cdot T + frac{1}{2} cdot rho cdot u^2
      end{split}
      end{equation}

      The source term, $textbf{S}$ is divided into two different sub-source
      terms.

      begin{equation} label{S}
      mathbf{S(U)}= mathbf{S_A(F(U))} + mathbf{S_R(U)}
      end{equation}

      $mathbf{S_A}$ is the source term caused by axial changes in the pipe cross
      section.

      begin{equation} label{Sa}
      mathbf{S_A(F(U))}= - frac{1}{A} cdot frac{dA}{dx} cdot left(F +
      begin{pmatrix}
      0 \
      -p \
      0 \
      0
      end{pmatrix} right)
      end{equation}

      $mathbf{S_R}$ is the source term taking into account homogeneous chemical
      reaction, friction, heat and mass transfer between gas and solid phase.

      begin{equation} label{Sr}
      mathbf{S_R(F(U))}= begin{pmatrix}
      0 \
      -frac{F_R}{V} \
      frac{q_w}{V} \
      M W_j cdot left(sumlimits_{i}^{R_{hom}} nu_{i.j} cdot
      dot{r_i}right)end{pmatrix}
      end{equation}

      bibliography{reference}
      end{document}


      enter image description here









      share







      New contributor




      Je Young Kim is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
      Check out our Code of Conduct.












      I have some problems in spacing.
      I just want to put equations in the text.
      What I found is that the vertical spacing between the equation and text is not consistent.
      Some is large and some is small. Both spacings above and below equation are not consistent.
      How do I get consistent spacing in the entire thesis?
      I can adjust spacing using vspace{baselineskip}.
      But I am not sure the spacing is exactly the same or not. It doesnt seems good solution.
      Here is my code.



      documentclass[twoside]{utmthesis}
      %According to the new manual, should not mixed single-side with two-side
      printing
      usepackage{graphicx}
      usepackage{url}
      %usepackage[pages=some]{background}
      usepackage{lipsum}
      usepackage{pdflscape}
      usepackage{verbatim}
      usepackage{textcomp}
      usepackage{mhchem}
      usepackage{amsmath}
      usepackage{listings}
      usepackage{graphicx}
      usepackage{mwe}
      usepackage{xr}
      usepackage{siunitx}
      usepackage{float}
      usepackage{subfig}
      newsavebox{bigleftbox}
      usepackage{tikz}
      usepackage{nameref}
      %usepackage[printonlyused]{acronym}
      usepackage{romannum}
      usetikzlibrary{shapes.geometric, arrows}
      usepackage{natbib}
      letcitecitep
      bibliographystyle{utmthesis-authordate}

      begin{document}
      subsection{1D numerical modeling of the SI-engine}
      vspace{baselineskip}
      The numerical models and related equations applied in the 1D engine
      simulation are presented and briefly discussed.
      subsubsection{Pipe}
      vspace{baselineskip}
      In one-dimension modeling of flow through the pipes, working fluid is
      assumed that it is flowing in one-direction, instead of three direction (X,
      Y, and Z). It seems plausible, as most fluid particles are moving mostly in
      longitudinal direction rather than radial direction of the pipe. A one-
      dimensional pipe flow is described by Euler equation which is given in
      conservation form below.

      begin{equation} label{Euler}
      frac{partial mathbf{U}}{partial t} + frac{partial mathbf{F(U)}}
      {partial x}= mathbf{S(U)}
      end{equation}

      $textbf{U}$ and $textbf{F}$ represent state vector and flux vector,
      respectively which are represented as follows.

      begin{equation}
      mathbf{U}= begin{pmatrix}
      rho \
      rho cdot u \
      rho cdot bar{C_v} cdot T + frac{1}{2} cdot rho cdot u^2 \
      rho cdot w_j end{pmatrix},,, , ,,, mathbf{F}= begin{pmatrix}
      rho cdot u \
      rho cdot u^2 + p \
      rho cdot (E+p) \
      rho cdot u cdot w_j end{pmatrix}
      end{equation}

      With total energy, $E$ is given as below.

      begin{equation} label{E}
      begin{split}
      E=rho cdot bar{C_v} cdot T + frac{1}{2} cdot rho cdot u^2
      end{split}
      end{equation}

      The source term, $textbf{S}$ is divided into two different sub-source
      terms.

      begin{equation} label{S}
      mathbf{S(U)}= mathbf{S_A(F(U))} + mathbf{S_R(U)}
      end{equation}

      $mathbf{S_A}$ is the source term caused by axial changes in the pipe cross
      section.

      begin{equation} label{Sa}
      mathbf{S_A(F(U))}= - frac{1}{A} cdot frac{dA}{dx} cdot left(F +
      begin{pmatrix}
      0 \
      -p \
      0 \
      0
      end{pmatrix} right)
      end{equation}

      $mathbf{S_R}$ is the source term taking into account homogeneous chemical
      reaction, friction, heat and mass transfer between gas and solid phase.

      begin{equation} label{Sr}
      mathbf{S_R(F(U))}= begin{pmatrix}
      0 \
      -frac{F_R}{V} \
      frac{q_w}{V} \
      M W_j cdot left(sumlimits_{i}^{R_{hom}} nu_{i.j} cdot
      dot{r_i}right)end{pmatrix}
      end{equation}

      bibliography{reference}
      end{document}


      enter image description here







      spacing equations amsmath





      share







      New contributor




      Je Young Kim is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
      Check out our Code of Conduct.










      share







      New contributor




      Je Young Kim is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
      Check out our Code of Conduct.








      share



      share






      New contributor




      Je Young Kim is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
      Check out our Code of Conduct.









      asked 1 min ago









      Je Young KimJe Young Kim

      11




      11




      New contributor




      Je Young Kim is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
      Check out our Code of Conduct.





      New contributor





      Je Young Kim is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
      Check out our Code of Conduct.






      Je Young Kim is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
      Check out our Code of Conduct.






















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