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2. \( \frac{6 t^{3} q^{2} \times 2 r^{3}}{3 t^{3} x r^{2}} \)

Ask by Cummings Frazier. in Ghana
Feb 20,2025

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Tutor-Verified Answer

Answer

The simplified form is \( \frac{4q^{2}r}{x} \).

Solution

Calculate or simplify the expression \( \frac{6t^{3}q^{2} \times 2r^{3}}{3t^{3}xr^{2}} \). Simplify the expression by following steps: - step0: Solution: \(\frac{6t^{3}q^{2}\times 2r^{3}}{3t^{3}xr^{2}}\) - step1: Multiply the terms: \(\frac{12t^{3}q^{2}r^{3}}{3t^{3}xr^{2}}\) - step2: Reduce the fraction: \(\frac{4q^{2}r}{x}\) The simplified form of the expression \( \frac{6t^{3}q^{2} \times 2r^{3}}{3t^{3}xr^{2}} \) is \( \frac{4q^{2}r}{x} \).

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To simplify the expression \( \frac{6 t^{3} q^{2} \times 2 r^{3}}{3 t^{3} x r^{2}} \), we first multiply the numerators: \[ 6 t^{3} q^{2} \times 2 r^{3} = 12 t^{3} q^{2} r^{3} \] Now we can rewrite the whole expression as: \[ \frac{12 t^{3} q^{2} r^{3}}{3 t^{3} x r^{2}} \] Next, we can simplify the fraction by canceling out common terms. The \( t^{3} \) in the numerator and denominator cancels out, and we can also simplify the coefficients and the \( r^{3} \) over \( r^{2} \): \[ \frac{12}{3} = 4 \] And for the r terms: \[ \frac{r^{3}}{r^{2}} = r^{1} = r \] Putting it all together, we get: \[ \frac{4 q^{2} r}{x} \] Thus, the simplified expression is: \[ \frac{4 q^{2} r}{x} \]

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