3- choose the correct answer 1- In the case of a mono-atomic lattice oscillation, if the motion of adjacent atoms is in the same direction, then the equation describing the motion for the force acting on the atom n+3 is in the form: M M d²µµ+3 dt 42 d²un+3 dt² M Md²um+3 dt² =−ß(2un+3 − Un+4 − Un+2) =-B(2un+3 - Un+4-U₁-2) d²u+3 dt² =-ß(2un+3 - Un+4 - Un+2) = B =-B(2u+3-U₁+4-U₁-2) D 2. In the case of oscillation of a monoatomic lattice, if the motion of adjacent atoms is opposite, then the equation describing the motion for the force acting on the atom n + 3 is in the form: B M D M d²un+³ = −ß(2U₁+3+U₁+4 +U₁+2) dt² ď²µµ+³ = −ß(2µ„+³ — U„+4 − Uµ+5) dt2 M M d²u. dt² d²U₁+3 dt² = −ß(2u₁+3+U+4+un+2) .A = -B(2un+3 -Un+4-U₁+5) .C A C

Transcribed Image Text:

3- choose the correct answer 1- In the case of a mono-atomic lattice oscillation, if the motion of adjacent atoms is in the same direction, then the equation describing the motion for the force acting on the atom n+3 is in the form: M M d²u₁1+3 dt² =-B(2u+3-U₁ M n+4 - U₁+2) d²u₁+3 = −ß(2u₁+3 − Un+4 dt² -un-2) ‚d²un+3 = −ß(2µµ+3 − U₁+4 − Uµ+2) M dt² B d²u₁+3 = B(2u₁43 — Un+4 − Un-2) dt² D .B M .D d²un3 करे M d²u₁+3 dt M 2. In the case of oscillation of a monoatomic lattice, if the motion of adjacent atoms is opposite, then the equation describing the motion for the force acting on the atom n + 3 is in the form: M = =-B(2un+3 +un+4 = d²u₁+3 dt² d²u₁+3 dt2 -B(2un+3 - Un+4-Un+5) =-B(2u₁₁+3 = +U₁+2) =-B(2un+3 +U₁+4 + U₁+2) .A Un+4-U₁+5) .C A C