Physics, asked by sayansathi, 10 hours ago

of x 2. A body projected with a speed of art angle of 60 with the horizontal explodes in wo equal pieces ata con Where its velocity makes an angle of 30° with the horizontal for 1st time. One piece stari moving verically upward with a speed of 23 after explosion. What is velocity of one piece with respect to other in me vertical direction just after the explosion?​

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Answered by venom0136
1

Answer:

of x 2. A body projected with a speed of art angle of 60 with the horizontal explodes in wo equal pieces ata con Where its velocity makes an angle of 30° with the horizontal for 1st time. One piece stari moving verically upward with a speed of 23 after explosion. What is velocity of one piece with respect to other in me vertical direction just after the explosion?

Radius of curvature r=

Radius of curvature r= 2

Radius of curvature r= 2R

Radius of curvature r= 2R

Radius of curvature r= 2R where R is the range

Radius of curvature r= 2R where R is the ranger=

Radius of curvature r= 2R where R is the ranger= 2

Radius of curvature r= 2R where R is the ranger= 2R

Radius of curvature r= 2R where R is the ranger= 2R

Radius of curvature r= 2R where R is the ranger= 2R =

Radius of curvature r= 2R where R is the ranger= 2R = 2g

Radius of curvature r= 2R where R is the ranger= 2R = 2gu

Radius of curvature r= 2R where R is the ranger= 2R = 2gu 2

Radius of curvature r= 2R where R is the ranger= 2R = 2gu 2 sin2θ

Radius of curvature r= 2R where R is the ranger= 2R = 2gu 2 sin2θ

Radius of curvature r= 2R where R is the ranger= 2R = 2gu 2 sin2θ where 'u' is initial speed

Radius of curvature r= 2R where R is the ranger= 2R = 2gu 2 sin2θ where 'u' is initial speedr=

Radius of curvature r= 2R where R is the ranger= 2R = 2gu 2 sin2θ where 'u' is initial speedr= 2×10

Radius of curvature r= 2R where R is the ranger= 2R = 2gu 2 sin2θ where 'u' is initial speedr= 2×1020

Radius of curvature r= 2R where R is the ranger= 2R = 2gu 2 sin2θ where 'u' is initial speedr= 2×1020 2

Radius of curvature r= 2R where R is the ranger= 2R = 2gu 2 sin2θ where 'u' is initial speedr= 2×1020 2 ×sin2(30

Radius of curvature r= 2R where R is the ranger= 2R = 2gu 2 sin2θ where 'u' is initial speedr= 2×1020 2 ×sin2(30 ∘

Radius of curvature r= 2R where R is the ranger= 2R = 2gu 2 sin2θ where 'u' is initial speedr= 2×1020 2 ×sin2(30 ∘ )

Radius of curvature r= 2R where R is the ranger= 2R = 2gu 2 sin2θ where 'u' is initial speedr= 2×1020 2 ×sin2(30 ∘ )

Radius of curvature r= 2R where R is the ranger= 2R = 2gu 2 sin2θ where 'u' is initial speedr= 2×1020 2 ×sin2(30 ∘ )

Radius of curvature r= 2R where R is the ranger= 2R = 2gu 2 sin2θ where 'u' is initial speedr= 2×1020 2 ×sin2(30 ∘ ) =

Radius of curvature r= 2R where R is the ranger= 2R = 2gu 2 sin2θ where 'u' is initial speedr= 2×1020 2 ×sin2(30 ∘ ) = 20

Radius of curvature r= 2R where R is the ranger= 2R = 2gu 2 sin2θ where 'u' is initial speedr= 2×1020 2 ×sin2(30 ∘ ) = 20400×

Radius of curvature r= 2R where R is the ranger= 2R = 2gu 2 sin2θ where 'u' is initial speedr= 2×1020 2 ×sin2(30 ∘ ) = 20400× 2

Radius of curvature r= 2R where R is the ranger= 2R = 2gu 2 sin2θ where 'u' is initial speedr= 2×1020 2 ×sin2(30 ∘ ) = 20400× 23

Radius of curvature r= 2R where R is the ranger= 2R = 2gu 2 sin2θ where 'u' is initial speedr= 2×1020 2 ×sin2(30 ∘ ) = 20400× 23

Radius of curvature r= 2R where R is the ranger= 2R = 2gu 2 sin2θ where 'u' is initial speedr= 2×1020 2 ×sin2(30 ∘ ) = 20400× 23

Radius of curvature r= 2R where R is the ranger= 2R = 2gu 2 sin2θ where 'u' is initial speedr= 2×1020 2 ×sin2(30 ∘ ) = 20400× 23

Radius of curvature r= 2R where R is the ranger= 2R = 2gu 2 sin2θ where 'u' is initial speedr= 2×1020 2 ×sin2(30 ∘ ) = 20400× 23

Radius of curvature r= 2R where R is the ranger= 2R = 2gu 2 sin2θ where 'u' is initial speedr= 2×1020 2 ×sin2(30 ∘ ) = 20400× 23

Radius of curvature r= 2R where R is the ranger= 2R = 2gu 2 sin2θ where 'u' is initial speedr= 2×1020 2 ×sin2(30 ∘ ) = 20400× 23

Radius of curvature r= 2R where R is the ranger= 2R = 2gu 2 sin2θ where 'u' is initial speedr= 2×1020 2 ×sin2(30 ∘ ) = 20400× 23 =10

Radius of curvature r= 2R where R is the ranger= 2R = 2gu 2 sin2θ where 'u' is initial speedr= 2×1020 2 ×sin2(30 ∘ ) = 20400× 23 =10 3

Radius of curvature r= 2R where R is the ranger= 2R = 2gu 2 sin2θ where 'u' is initial speedr= 2×1020 2 ×sin2(30 ∘ ) = 20400× 23 =10 3

Radius of curvature r= 2R where R is the ranger= 2R = 2gu 2 sin2θ where 'u' is initial speedr= 2×1020 2 ×sin2(30 ∘ ) = 20400× 23 =10 3 =17.3m

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