(A) Mass of the rocket,$m = 20,000\; kg$.Initial acceleration,$a = 5.0\; m s^{-2}$.Acceleration due to gravity,$g = 10\; m s^{-2}$.Using Newton's seco

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(A) Mass of the rocket,$m = 20,000\; kg$.Initial acceleration,$a = 5.0\; m s^{-2}$.Acceleration due to gravity,$g = 10\; m s^{-2}$.Using Newton's second law of motion,the net force acting on the rocket is the difference between the thrust $(F)$ and the weight $(mg)$.The equation of motion is: $F - mg = ma$.Rearranging for thrust: $F = m(g + a)$.Substituting the values: $F = 20,000 \times (10 + 5) = 20,000 \times 15 = 3 \times 10^{5}\; N$.

Class 11 Physics Newton's Laws of Motion and Friction Variable Mass System and Rocket Problem

Medium

$A$ rocket with a lift-off mass $20,000\; kg$ is blasted upwards with an initial acceleration of $5.0\; m s^{-2}$. Calculate the initial thrust (force) of the blast.

A
$3 \times 10^{5}\; N$
B
$6 \times 10^{4}\; N$
C
$3 \times 10^{3}\; N$
D
$8 \times 10^{5}\; N$

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Newton's Laws of Motion and Friction

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Variable Mass System and Rocket Problem

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$A$ rocket with a lift-off mass $20,000\; kg$ is blasted upwards with an initial acceleration of $5.0\; m s^{-2}$. Calculate the initial thrust (force) of the blast.

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