Question

calculate the potential energy possessed by a cricket ball 160g when it is at a height of 8m above the ground take the volume of g as 10m/sec with solution ​??
✔ explanation should be in brief
✯no spam answers
✔answers will be deleted if,
✯irrelevant answer
✯copied
✯spammed
✯additional information required.​

_______________​​​

Answer 1

$\huge\sf\pink{Answer}$

☞ Potential Energy of the ball is 12.8 J

━━━━━━━━━━━━━

$\huge\sf\blue{Given}$

✭ Mass of the ball is 160 g

✭ Height in which this ball is placed is given as 8 m

✭ Gravitational Acceleration is 10 m/s²

━━━━━━━━━━━━━

$\huge\sf\gray{To \:Find}$

◈ Potential Energy of the body?

━━━━━━━━━━━━━

$\huge\sf\purple{Steps}$

$\large\underline{\underline{\sf Concept}}$

So here we shall first convert this mad of the back from gram to Kilogram so then it's simple substitution of the given values in the formula of Potential energy

━━━━━━━━

So on converting the mass of the ball

»» $\sf 1 \ Kg = 1000 \ g$

»» $\sf 160 \ g = \dfrac{160}{1000}$

»» $\sf \red{0.16 \ kg}$

Now we know that the potential energy of a body is given by,

$\underline{\boxed{\sf Potential \ Energy = mgh}}$

• m = Mass = 0.16 kg
• g = Gravitational Acceleration = 10 m/s²
• h = Height = 8 m

Substituting the values,

➝ $\sf Potential \ Energy = mgh$

➝ $\sf Pe = 0.16\times 10 \times 8$

➝ $\sf Pe = 1.6 \times 8$

➝ $\sf \orange{Potential \ Energy = 12.8 \ J}$

☯ $\underline{\textsf{Know More}}$

⪼ Work done by a body is equal to the product of the displacement done by the body and the force applied

☆ Work = Force × Displacement

From this as per Newton's Second Law F = ma and if the displacement of the body be H(height) then,

≫ Work = mg × h

⪼ Work(Potential Energy) = mgh

━━━━━━━━━━━━━━━━━━

Answer 2

Answer:

✡ Question ✡

➡ Calculate the potential energy possessed by a cricket ball 160g when it is at a height of 8m above the ground take the volume of g as 10m/sec with solution ?

✡ Given ✡

⚫ Mass of the ball is 160 g.

⚫ Height in which this ball is placed is given as 8 m.

⚫Gravitational Acceleration is 10 m/s².

✡ To Find ✡

➡ Calculate the potential energy of the body?

✡ Formula ✡

$\bold{\large{\fbox{\color{blue} {Potential\: Energy = mgh}}}}$

( where,

m = Mass = 0.16 kg

g=Gravitational Acceleration=10 m/s²

h = Height = 8 m )

✡ Solution ✡

➡ By Converting the mass of the ball,

✴ 1 Kg = 1000 g

✴ 160g = $\dfrac{160}{1000}$ => 0.16 Kg.

▶Substituting the values,

➡Potential Energy = mgh

=> Pe = 0.16 × 10 × 8

=> Pe = 1.6 × 8

=> Pe = 12.8 J

$\bold{\large{\fbox{\color{green} {Potential\: energy = 12.8 J}}}}$

Step-by-step explanation:

HOPE IT HELP YOU