Einstein's mass-energy relationship states that if the mass decreases by Δm, the energy released ΔE is given by A. ΔE = Δm × c, where "c" denotes the speed of light. B. ΔE = Δm × c², where "c" denotes the speed of light. C. ΔE = Δm ⁄ c, where "c" denotes the speed of light. D. ΔE = Δm ⁄ c², where "c" denotes the speed of light

Einstein's mass-energy relationship states that if the mass decreases by

Δm, the energy released ΔE is given by

A. ΔE = Δm × c, where "c" denotes the speed of light.

B. ΔE = Δm × c², where "c" denotes the speed of light.

C. ΔE = Δm ⁄ c, where "c" denotes the speed of light.

D. ΔE = Δm ⁄ c², where "c" denotes the speed of light
by

1 Answer

Answer :

ΔE = Δm × c², where "c" denotes the speed of light.


by

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