No acceleration only

Two different experiments are performed. In the first experiment, a constant force F is applied to a hydrogen on. In the second experiment, the same constant applied force F is applied to an ion that has a mass 16 times the mass of hydrogen. In each experiment, the ion is at rest at location A. Note that this force is much larger than any possible gravitational force on the ions, so you can neglect gravity. let ad be the distance between And B. We For lon VF For Hian Yeat do -d , B (VF = Fret at ) For Hian For lon At - Ad ( Fretat ) At = Ad ( Frotot) 17 = 2.696 At 2 ( Fnet ) = 0 Am DER ( Fat ) = 7 d m Part 1 What is the ratio of the time interval for each ion to travel from A to B. Vein Fret ( 2.646 At ) / 7/ Throb = 2646 Alion = Aty (= 0.378 pt. 2 ) $1. 3 ) For lon Save for Later For H = 2.646 Tam Attempts: 0 of 4 used Fut Pien _ Front ( 2. 64606 ) Part 2 What is the ratio of the speeds of the ions as they pass location B, -Bion ? PRim = P / + FretAt = Frutt = - 7 my M' p 1. 5 ) PAH = P / + FACE = FatAt = - My UBion = UB.H " = - gat Pfien - 7 P4 6 ) PRM Part 3 What is the ratio of the momenta of the ions as they pass location B, ? "PB.H PBion = PB.H Save for Later Attempts: 0 of 4 used Submit Answer Part 4 Now, suppose the ion and the hydrogen ion are released from rest in a constant gravitational field, and the only force on each ion is F grav = (0, - mg, 0) Answer the same questions as above. What is the ratio of the time interval for each ion to travel from A to B, Tion Ation = At H Save for Later Attempts: 0 of 4 used Submit Answer Part 5 What is the ratio of the speeds of the ions as they pass location B, -? D UB.H UB.H Save for Later Attempts: 0 of 4 used Submit Answer Part 6 What is the ratio of the momenta of the ions as they pass location B, -ion ? PBM eTextbook and Media Save for Later 1:08 PM Thu Oct 19