Physics, asked by mahi3084, 3 months ago

4. The surface area of an object is 20 m² and a force of 10 N is applied on it, then what is the pressure? ​

Answers

Answered by MoonlightPhoenix
12

✫ Given Question :

  • The surface area of an object is 20 m² and a force of 10 N is applied on it, then what is the pressure?

✫ Required Solution :

✩ Values Given to us :

  • ⟼ Surface area of an object is 20 m²

  • ⟼ Force of 10 N is applied

✩ Formula Uses Here :

  • ⟼ Pressure = Force / Area

✩ Concept Behind :

  • ⟼ To Find pressure on object , we have to use a formula of Pressure by applying the formula of pressure we can easily calculate it

✫ Putting Values in Formula :

  • ⟼ Pressure = 10 / 20 N /m²

  • ⟼ Pressure = 0.5 N/m²

⠀⠀⚘ Pressure = 0.5 N/m² ⚘

⠀⠀⠀⠀⠀⠀⠀⠀⠀or

⠀⠀⠀⚘ Pressure = 0.5 Pascal ⚘

_________________________

Answered by SachinGupta01
4

 \bf \:\underline{ Given} \:  :

\sf{\rightarrow Surface\: area\:_{(of\:object)}=20m^2}

\sf{\rightarrow Force\:applied\:_{(on\:object)}=10N}

 \bf \: \underline{To  \: find }\:  :

\sf{\rightarrow Pressure\:_{(on\:object)}= \: ?}

 \bf \star \:   \underline{So,  \: Let's \:  Start} \:  \star

 \sf \: Formula  \: used  \: to \:  find \:  pressure :

 \boxed{ \purple{\sf{\longrightarrow Pressure \: (P)\: = \: \dfrac{Force \: (F)}{Area\: (A)}}}}

\sf \: \underline{Here,\:\:Area=20m^2\:\: Force=10N}

 \sf \: Putting \:  the  \: value \:  into  \: the  \: formula :

\sf \: {\longrightarrow \:  Pressure \: = \: \dfrac{10}{20}}

\sf{\longrightarrow \:  Pressure \: = \: 0.5\:N/m^2}

\sf{\longrightarrow \:  Pressure=0.5\:pa\:or\: Pascal}

 \bf \: Hence,

 \purple{\sf{\star \:  Pressure\:applied\:_{(on\:object)}=0.5N/m^2\:or\: Pascal}}

\begin{gathered}\dag\: {\textsf{\textbf{ Some more information \: :}}} \\ \end{gathered}

Force : A push or a pull on an object is called force. Examples - Opening a door.

Pressure : The Physical quantity which measures the effect of force per unit area is called pressure

 \sf The\:  effect\: of\: the\: force\: depends \:upon \::

(1). The magnitude of the force applied.

(2). The over which the force is applied.

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