Calculate the uncertainty in the velocity of al wagon of mass 2000 kg whose positions is known to an accuracy of `+-10m`.

Calculate the uncertainty in the velocity of a wagon of mass 3000 kg, whose position is known to an accuracy of +- 10 pm. Hint : Position known to accuracy means +- 10 pm, i.e., Delta x = +- 10 pm.

Calculate the uncertainty in the velocity of a wagon of mass 3000 kg, whose position is known to an accuracy of +- 10 pm. Hint , Position known to accuracty mean +- 10 pm, i.e., Delta x = +- 10 pm.

Calculate the uncertainty in the velocity of a wagon of mass 3000 kg, whose position is known to an accuracy of +- 10 pm. Hint , Position known to accuracty mean +- 10 pm, i.e., Delta x = +- 10 pm.

Calculate the uncertainty in the velocity of a wagon of mass 3000 kg whose position is known to an accuracy of +- 10 pm. (Planck's contant = 6.626 xx 10^(-34) kg m^2 s^(-1)) Given : m = 3000kg , Deltax = 10 p m = 10 xx 10^(-12) m = 10^(-11) m

Calculate the uncertinty in the velocity fo a wagon of mass 200 kg whose position is known to an accuracy of +- 10 m .

Calculate the uncertainty in the velocity of a wagon of mass 3000kg whose position is known to an accuracy of ± 10 pm (Planck’s constant = 6.626 xx 10^(−34) Kg m^2 s^(-1) .

Calculate the uncertainty in the velocity of a wagon of mass 3000kg whose position is known to an accuracy of ± 10 pm (Planck’s constant = 6.626 xx 10^(−34) Kg m^2 s^(-1) .

Calculate the uncertainty in the velocity of a wagon of mass 3000kg whose position is known to an accuracy of ± 10 pm (Planck’s constant = 6.626 xx 10^(−34) Kg m^2 s^(-1) .

Calculate the uncertainty in the velocity of a wagon of mass 3000kg whose position is known to an accuracy of ± 10 pm (Planck’s constant = 6.626 xx 10^(−34) Kg m^2 s^(-1) .