Question

solve karo plzzz.. ​

Answer 1

$\bigstar\:{\underline{\purple{\textsf{\textbf{Difference\:between\:Mass\:and\: Weight\::}}}}}$⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀

$\boxed{\begin{array}{c|cc}\bf Mass&\bf Weight\\\frac{\qquad \qquad \qquad\qquad\qquad \qquad\qquad\qquad}{}&\frac{\qquad \qquad \qquad\qquad\qquad \qquad\qquad\qquad}{}\\\sf Mass \: is \: measure \:of \: the &\sf Weight \: is \: the \: measure \: of \: the \\ \sf \: amount \: of \: matter \: in \:a \: body.&\sf amount \: of \: force \: acting \: on \: mass \\ &\sf due \: to \: acceleration \: due \: to \: gravity. \\\\\sf Mass \: is \: denoted \: by \: 'M'. &\sf Weight \: is \: denoted \: by \: 'W'. \\\\\sf Mass \: is \:a \: scalar \: quantity. &\sf Weight \: is \: a \: vector \: quantity. \\\\\sf Mass = volume \times density&\sf Weight = mass \times acceleration\\ &\sf due \: to \:gravity\\\\\sf The \: SI \: unit \: of \: mass \: is \: &\sf The \: SI \: unit \: of \: weight \: is \:\\\sf Kilogram (Kg).&\sf Newton \: (N).\\\\\sf Mass \: can \: never \: be \: zero. &\sf Weight \: can \: be \: zero \: \\ &\sf where \: there \: is \: no \: gravity. \\\\\sf Mass \: of \: a \: body \: is \: constant &\sf Weight \: varies \: from \: place \: to \\\sf everywhere. & \sf place.\\\\\sf Mass \: can \: be \: easily \: measured &\sf Weight \: can \: be \: measured \: using \\\sf using \: any \: ordinary \: balance.&\sf spring \: balance.\\\\\sf Mass \: is \: a \: fundamental \: physical& \sf Mass \:is \:a \: derived \: quantity\\\sf quantity.\\\\\sf Dimensional \: formula \: of \: mass &\sf Dimensional \: formula \: of \: weight \\\sf is \: M.&\sf is \: [M^1 L^1 T^{-2}]\end{array}}$⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀

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Answer 2

$\huge{\underline{\underline{\boxed{\sf{\purple{Answer ࿐}}}}}}$

The mass of an object is a measure of the object's inertial property, or the amount of matter it contains. The weight of an object is a measure of the force exerted on the object by gravity, or the force needed to support it. The pull of gravity on the earth gives an object a downward acceleration of about 9.8 m/s2.