Find \(f \circ g\) and \(g \circ f\) for \(f(x)=|x|\) and \(g(x)=\sin x\)

📺 Video Explanation

📝 Question

Let functions \(f:\mathbb{R}\to\mathbb{R}\) and \(g:\mathbb{R}\to\mathbb{R}\) be defined as:

\[ f(x)=|x|,\qquad g(x)=\sin x \]

Find:

• \((f\circ g)(x)\)
• \((g\circ f)(x)\)

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✅ Solution

🔹 Find \((f\circ g)(x)\)

By definition:

\[ (f\circ g)(x)=f(g(x)) \]

Substitute \(g(x)=\sin x\):

\[ (f\circ g)(x)=f(\sin x) \]

Since:

\[ f(x)=|x| \]

So:

\[ (f\circ g)(x)=|\sin x| \]

Therefore:

\[ \boxed{(f\circ g)(x)=|\sin x|} \]

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🔹 Find \((g\circ f)(x)\)

By definition:

\[ (g\circ f)(x)=g(f(x)) \]

Substitute \(f(x)=|x|\):

\[ (g\circ f)(x)=g(|x|) \]

Since:

\[ g(x)=\sin x \]

So:

\[ (g\circ f)(x)=\sin|x| \]

Therefore:

\[ \boxed{(g\circ f)(x)=\sin|x|} \]

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🎯 Final Answer

\[ \boxed{(f\circ g)(x)=|\sin x|} \]

\[ \boxed{(g\circ f)(x)=\sin|x|} \]

Hence, both are defined for all real numbers and generally:

\[ \boxed{f\circ g \ne g\circ f} \]

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🚀 Exam Shortcut

• For \(f\circ g\): put \(\sin x\) inside modulus
• For \(g\circ f\): put modulus inside sine
• Order matters in composition