Question

acceleration of a body of mass 5 kg when a force of 50 Newton acts on it​

Answer 1

$\huge{\bf{\green{\mathfrak{\dag{\underline{\underline{Question:-}}}}}}}$

$\bullet{\longmapsto}$ What is the acceleration of a body of mass 5 kg when a force of 50 Newton acts on it.

$\huge {\bf{\orange{\mathfrak{\dag{\underline{\underline{Answer:-}}}}}}}$

$\bullet{\leadsto} \: \textsf{Mass of the body = 5 kg.}$

$\bullet{\leadsto} \: \textsf{Force acting on the body = 50 N.}$

$\bullet{\leadsto} \: \textsf{Acceleration = ?}$

$\bullet{\leadsto} \: \textsf{We know that,}$

$\bullet{\leadsto} \: \boxed{\pink{\sf F \: = \: ma.}}$

$\bullet{\leadsto} \: \textsf{But we require here acceleration.}$

$\bullet{\leadsto} \: \textsf{Arranging the equation such a way that we get acceleration =}$

$\bullet{\leadsto} \: \sf F \: = \: ma.$

$\bullet{\leadsto} \: \implies{\sf a \: = \: \dfrac{F}{m}}$

$\bullet{\leadsto} \: \textsf{Now substituting the values we get,}$

$\bullet{\leadsto} \: \sf a \: = \: \dfrac{50}{5}$

$\bullet{\leadsto} \: \sf a \: = \: \dfrac{\cancel{50}}{\cancel{5}}$

$\bullet{\leadsto} \: \underline{\boxed{\purple{\sf 10 \: m/s^{2}.}}}$

$\huge{\bf{\red{\mathfrak{\dag{\underline{\underline{Conclusion:-}}}}}}}$

$\bullet{\leadsto} \: \boxed{\therefore{\sf Acceleration \: of \: mass \: 5 \: kg \: when \: a \: force \: of \: 50 \: Newtons \: acts \: on \: it \: = 10 \: m/s^{2}.}}$

Answer 2

$\large{\underline{\underline{\rm{Question:}}}}$

Find the acceleration of a body of mass 5kg when a force of 50 Newton acts on it.

$\large{\underline{\underline{\rm{Required\:Answer:}}}}$

The acceleration of the body is 10m/s².

$\large{\underline{\underline{\rm{Given:}}}}$

$\sf{\longmapsto Mass = \bf 5kg}$

$\sf{\longmapsto Force = 50\:Newton}$

$\large{\underline{\underline{\rm{To\:Find:}}}}$

We need to find the acceleration of the body.

$\large{\underline{\underline{\rm{Formula\:used:}}}}$

According to Newton's second law of motion, we know that:

$\bigstar{\underline{\boxed{\sf{Force = \bf {Mass \times Acceleration}}}}}$

$\bigstar{\underline{\boxed{\sf{Acceleration = \bf {\dfrac{Force}{Mass}}}}}}$

This is the required formula to find the acceleration.

$\large{\underline{\underline{\rm{Solution:}}}}$

$\tt{\longmapsto Acceleration = \dfrac{Force}{Mass}}$

$\tt{\longmapsto Acceleration = \dfrac{50}{5}}$

$\longmapsto{\boxed{\tt{Acceleration = 10ms^{-2}\checkmark}}}$

Hence, the acceleration of the body is 10m/s².