__Distance to Energy Calculator:__

__Distance to Energy Calculator:__

Enter the values of Total Distance d_{(m)} , Total Time t_{(sec)} & Mass m_{(kg) }to determine the value of Distance to Energy E_{(J).}

__Distance to Energy Formula:__

__Distance to Energy Formula:__

The Distance to Energy E_{(}_{J) }in Joules is equal to the 0.5 into multiply to the Total Distance d_{(m) }in meter and is divided by the Total Time t_{(sec) }in Second is squared and then multiply by the Mass m_{(kg) }in kilogram.

The formula of Distance to Energy can be written as,

E_{(J)} = .5 ∗ (d_{(m)} / t_{(sec)})^{2 }∗ m_{(kg)}

Here,

E_{(J)} = Distance to Energy in Joules

d_{(m)} = Total Distance in meter

t_{(sec)} = Total Time in second

m_{(kg)} = Mass in kilogram

__Distance to Energy Calculation:__

__Distance to Energy Calculation:__

1) Calculate the Distance to Energy and given for the Total Distance = 5 meter, Total time = 4 second, Mass = 7 kilogram.

Answer

E = .5 ∗ (d/t)^{2 }∗ m

E = .5 * (5/4)^{2} * 7

E = 5.46 Joules.

2) Calculate the Mass and given for the Distance to Energy = 5.46 Joules, Total Distance = 5 meter, Total Time = 4 second.

Answer

E = .5 ∗ (d/t)^{2 }∗ m

5.46 =.5 *(5/4)^{2} *m

m = 7 kilometer.

__Potential Energy vs. Internuclear Distance:__

__Potential Energy vs. Internuclear Distance:__