For analyzing complex system, study of computational mechanics is very important. It also helps where clinical test is either banned or need understanding. Computational method has play an important role to overcome the biomedical problem by visualize the disease structure
Answers
Explanation:
Advances in computational geometric modeling, imaging, and simulation let researchers build and test models of increasing complexity, generating unprecedented amounts of data. As recent research in biomedical applications illustrates, visualization will be critical in making this vast amount of data usable; it’s also fundamental to understanding models of complex phenomena.
Computer simulation and visualization are having a substantial impact on biomedicine and other areas of science and engineering. Advanced simulation and data acquisition techniques allow biomedical researchers to investigate increasingly sophisticated biological function and structure. A continuing trend in all computational science and engineering applications is the increasing size of resulting datasets. This trend is also evident in data acquisition, especially in image acquisition in biology Institute
Explanation:
87
The width of the minipage must be mentioned explicitly. We can
mention it in em, mm (millimetres), cm (centimetres), in (inches).
[In case you forgot, 1 em is approximately the width of the uppercase M]
The minipage environment typesets content in Text Mode. Any
math expression must be enclosed by the $ sign. E.g. $\frac{2}{3}$
Example:
\boxed{
\begin{minipage}{7 cm}
Fundamental Trigonometric Identities \\ \\
$\sin^2\theta + \cos^2\theta=1 \\ \\
1+\tan^2\theta = \sec^2\theta \\ \\
1+\cot^2\theta = \text{cosec}^2 \, \theta$
\end{minipage}
}\begin{array}{r | l}
2 & 13860 \\
\cline{2-2} 2 & 6930 \\
\cline{2-2} 3 & 3465 \\
\cline{2-2} 3 & 1155 \\
\cline{2-2} 5 & 385 \\
\cline{2-2} 7 & 77 \\
\cline{2-2} 11 & 11 \\
\cline{2-2} & 1\begin{array}{| c | c | c |}
\cline{1-3} 1 & 2 & 3 \\
\cline{1-3} 4 & 5 & 6 \\
\cline{1-3} 7 & 8 & 9 \\
\cline{1-3}
\end{array}87
The width of the minipage must be mentioned explicitly. We can
mention it in em, mm (millimetres), cm (centimetres), in (inches).
[In case you forgot, 1 em is approximately the width of the uppercase M]
The minipage environment typesets content in Text Mode. Any
math expression must be enclosed by the $ sign. E.g. $\frac{2}{3}$
Example:
\boxed{
\begin{minipage}{7 cm}
Fundamental Trigonometric Identities \\ \\
$\sin^2\theta + \cos^2\theta=1 \\ \\
1+\tan^2\theta = \sec^2\theta \\ \\
1+\cot^2\theta = \text{cosec}^2 \, \theta$
\end{minipage}
}\begin{array}{r | l}
2 & 13860 \\
\cline{2-2} 2 & 6930 \\
\cline{2-2} 3 & 3465 \\
\cline{2-2} 3 & 1155 \\
\cline{2-2} 5 & 385 \\
\cline{2-2} 7 & 77 \\
\cline{2-2} 11 & 11 \\
\cline{2-2} & 187
The width of the minipage must be mentioned explicitly. We can
mention it in em, mm (millimetres), cm (centimetres), in (inches).
[In case you forgot, 1 em is approximately the width of the uppercase M]
The minipage environment typesets content in Text Mode. Any
math expression must be enclosed by the $ sign. E.g. $\frac{2}{3}$
Example:
\boxed{
\begin{minipage}{7 cm}
Fundamental Trigonometric Identities \\ \\
$\sin^2\theta + \cos^2\theta=1 \\ \\
1+\tan^2\theta = \sec^2\theta \\ \\
1+\cot^2\theta = \text{cosec}^2 \, \theta$
\end{minipage}
}87
The width of the minipage must be mentioned explicitly. We can
mention it in em, mm (millimetres), cm (centimetres), in (inches).
[In case you forgot, 1 em is approximately the width of the uppercase M]
The minipage environment typesets content in Text Mode. Any
math expression must be enclosed by the $ sign. E.g. $\frac{2}{3}$
Example:
\boxed{
\begin{minipage}{7 cm}
Fundamental Trigonometric Identities \\ \\
$\sin^2\theta + \cos^2\theta=1 \\ \\
1+\tan^2\theta = \sec^2\theta \\ \\
1+\cot^2\theta = \text{cosec}^2 \, \theta$
\end{minipage}
}87
The width of the minipage must be mentioned explicitly. We can
mention it in em, mm (millimetres), cm (centimetres), in (inches).
[In case you forgot, 1 em is approximately the width of the uppercase M]
The minipage environment typesets content in Text Mode. Any
math expression must be enclosed by the $ sign. E.g. $\frac{2}{3}$
Example:
\boxed{
\begin{minipage}{7 cm}
Fundamental Trigonometric Identities \\ \\
$\sin^2\theta + \cos^2\theta=1 \\ \\
1+\tan^2\theta = \sec^2\theta \\ \\
1+\cot^2\theta = \text{cosec}^2 \, \theta$
\end{minipage}
}\begin{array}{r | l}
2 & 13860 \\
\cline{2-2} 2 & 6930 \\
\cline{2-2} 3 & 3465 \\
\cline{2-2} 3 & 1155 \\
\cline{2-2} 5 & 385 \\
\cline{2-2} 7 & 77 \\
\cline{2-2} 11 & 11 \\
\cline{2-2} & 187
The width of the minipage must be mentioned explicitly. We can
mention it in em, mm (millimetres), cm (centimetres), in (inches).
[In case you forgot, 1 em is approximately the width of the uppercase M]
The minipage environment typesets content in Text Mode. Any
math expression must be enclosed by the $ sign. E.g. $\frac{2}{3}$
Example:
\boxed{
\begin{minipage}{7 cm}
Fundamental Trigonometric Identities \\ \\
$\sin^2\theta + \cos^2\theta=1 \\ \\
1+\tan^2\theta = \sec^2\theta \\ \\
1+\cot^2\theta = \text{cosec}^2 \, \theta$
\end{minipage}
}\begin{array}{| c | c | c |}
\cline{1-3} 1 & 2 & 3 \\
\cline{1-3} 4 & 5 & 6 \\
\cline{1-3} 7 & 8 & 9 \\
\cline{1-3}
\end{array}