The position of uncertainty of an electron is 1.89 x 10 -14 m/ What is the uncertainity of velocity? thank you so much.

1 Answer
Sep 26, 2017

#=3.848620882*10^10 m//s#

Explanation:

For an explanation of how this question works, check out this link. Also shout out to
Truong-Son N. and his answer which helped me work this out.

To work out the uncertainty of velocity of an electron given it's uncertainty of position, we use this formula:
#Delta vec v_x=h/(m_e Delta vec x) #, where #Delta vec v_x# is the uncertainty of velocity,
#h# is Planck's constant #(6.62607004 × 10^-34 m^2 kg ##/ s#),
#m_e# is the mass of the electron (#9.10938356 × 10^-31#)
and # Delta vec x# is the uncertainty of position (in this case #1.89*10^-14m#).

Before we start I would like to note that this formula is got by transposing Heisenberg's Uncertainty Principle, which is
#Delta vec p_x Delta vec x >=h#, which transposed equals

#Delta vec p_x = h/(Delta vec x) #, then #Delta vec p_x # is swapped out for the momentum law #p=mv#, so
#Delta vec (mv_x)= h/(Delta vec x) #, divided by #m# equals

#Delta vec v_x=h/(m_e Delta vec x) #

Now we simply plug in the values into the formula, and we get
#Delta vec v_x=(6.62607004 × 10^-34 m^2 kg // s)/((9.10938356 × 10^-31kg)(1.89*10^-14m)#

#Delta vec v_x= (6.62607004 × 10^-34 (m^cancel(2))^color(red)(1) cancel(kg) // s)/(1.721673493*10^-44 cancel(kg m)) #

#Delta vec v_x=3.848620882*10^10 m//s#

I hope that helped!