SETN2133-01 (DYNAMICS) ASSIGNMENT KINEMATICS OF PARTICLES CURVILINEAR MOTION 17 APRIL 2024 # Leo Marko ALLET4007 . REFERENCES: https://tinyurl.com/ers3bfbt https://tinyurl.com/29pt3pk8 REFERENCES: https://tinyurl.com/m72dfc9c https://tinyurl.com/2cfndc8s REFERENCES: https://tinyurl.com/mucspt36 https://tinyurl.com/3mw2d5sx Based on the exercises, what can you summarize? Is there any patterns in solving projectile motion problems and curvilinear motion problems? How would you summarize the steps and procedure to solve them? Can you come out with your own tips and tricks in solving them? Develop your tips and tricks to share with everyone next week. a = v2 (0) R 5) = - ((0). v = 0 , 06252 . , · = /g2 09765625 I - 6 25N/S. t = 10 S radius = P = 40 M . Note - Sine ben denyon Personnan Sallya rat 0 0625 + v= I , interio nahe 2. mentar Dan St = &( a= +2) I = a= 2 + 2+) 2 + 6572 + 1252 + 1 5862 , . . Et = 10 ↳ ga = E = 1 , 252 at = d. *D t(0) = V = dS It 0 SEO) 0 8= du It . . = as d+ = v (300) = ↑ = d+ p. a 2 100 = V= · ↳ S 0 t 0 = = t = 35 o . * d= V = 300 v - J ↑ d (Remember Fundamental) cal(clus = t = ⑳ t an = - = 100 = S =0 ↳ = ↳ meaning a = t (v) t 300 . S . =Es(38)] . = St 30 . 15 = - = = 2 . 300 2 300 - 3 = 0 5 =0 = ↳ No moving So 0 the acceleration O . du I > - Angap straight line - . wonde. Vo = 25/S VF = So = 15/S . 0 S = 250M . (V ( (v0)2 2 = + 152 25 - - +2 2 2(a) (300) = 600 2 400 = a a(s So) - . . 2 -M/2 - = d= - 0 667m/g2 , ! A + OC (at = - 0 , 667 . . V 25 m/5. s = ⑬ a S = = a = -0 66 7 , 32 OM -0 667 . J . 250M , alan positiv seau artiya Rohai Formel hid = . (VHE (vo)2 2a(s So) + (VF) 2 = ? (V = - 22512 + 2( 0 667) (250 0 VF 17,07 M/S 625-1000 - - , = . - 505 /S - an = 12 a - P VatB an = van (2 +)? J + - a = 051 300 an = = 3562 1788 M/s ? dah ada equation -holradiusna dengan R # X 10ft = = Y an = d # + y" X= R = 10 Ft R= 2 R 26 = z = 24 : 056 , 468 meter . 125+ + (6)2 f 7 16 , 26 2 . Menca 460 15 1125 , . 24 = an 2 . , a= = * . 1 (10) a = ↳ = Dan constant 24x? Ep = y' · 6 = y & J a = 1) at . 20 Ft V= = formul Velocity - dan directions . /3 ? Y of t I Y = 0 2 pt2 A . o = tent 0 = 39 Velocity , = (E) 805 20/s cas encaris Arc Length - Welling 5 = 0 . + 150 s Vo = 2 = S = 150ST ( 0 001 5) ↳ = d as t Let 2 = d S ds V = =a at O . > Ingat . = S VF v du ds 00015) Set 001 .. = J du 150 25 V = dirngat hal add function S 25 - please V dr ds a+ s ut V = 15054 . , v= a+ ↳ 25/S = = . 300 Pahar integration. 111 033 - , . 2 VF an = - 252 = = F 20,07 = M/S 0 . = 1 ? 342683/s , 300 S = 150ST at a= a= - = 3 . -047/2388 32 5 + + pan/2 2 1 > 422977 /g2 at at v = (02S) d. a1 = dr = S (0 25) (0 25) at = at = 500 meter an 2 ds It When du It = 0 2 = , . (0 25) , 00pS . a = , , S = 50 1 v = V . 5 = 50n a+ = 2 m/z 2 V ION/S . = = 102 = 500 = . 100/2 + (2)2 + a= /2 2 , 009 an = 12 R (H) = 02 +22 + (5 50) ? a = attan ITI 0= ton() - 5 = VF For at So + = Vottatt2 Vot at t . is UNON Velocity If wa can use . 3 FORAUL OF Arnenatis ? equation a+ = 0 What O I Can SUNaze. They still using the kinematics . ⑦ equations can help us to using this equation predict and calculate/Approximate correctly . O . If they have equation FOUR on a OrV automaticly using as d # a = t O Calculus . O is must if you want to solve. Remember Currelinear is circle . . O O O . Yes the I can using acceleration for of is constant so . Arnenatics There two component . . Need understand initial condition . Petite motion O Write . . ② down what we know variable two separate Make it . Remember ③ Y have is does x constant gravity component X andy not have accelations acceleration which is E , 81/2 ④ using winematics . Loc eaction and check whether Or Not . or Motion curve linear O understand . basic of calculus, ② If they give meaning you a= 000 you need to apply have Varabel Formul a at # a . ③ = For Find regular at we can use Arnematic . equations ④ becareful and check whether logic or not . O Motion they have For Curvelinear . .... Please using a orv = ⑳ Always 0 . you cannot O . understand the calculus will be help . O must know . equations O your imagination if Paper just draw in the use . naturatical . Nabinalhan and how to change the word to what we know Appropriate using from the Question equation to solve.