ࡱ> 463a bjbjrr =L\L\      ,,,,,$,,ZZZ ,,ZZZZ,< Zz0ZeReZeZ ")ZAUP e> : Newtons 2nd Law Problems Worksheet Directions: Answer the following questions dealing with force, mass and acceleration. Remember to use the triangular formula to help solve the problems. Do not forget to show your work and display all units. 1. You are pushing a friend on a sled. You push with a force of 20 N. Your friend and the sled together have a mass of 60 kg. Ignoring friction, what is the acceleration of your friend on the sled? 2. A student pedaling a bicycle applies a net force of 400 N. The mass of the rider and the bicycle is 25 kg. What is the acceleration of the bicycle and the rider? 3. How much force will a tennis racket need to exert on a tennis ball, with a mass of 0.67 kg, to make it accelerate at a rate of 5,600 m/s2? 4. Gravity accelerates any object falling at 9.8 m/s2. What is the force that will be applied to the ground if an 88 kg box falls from the top of a shelf to the ground? 5. Whether you are standing, running or jumping Earth is exerting a gravitational force on you. This gravitational force is called an objects weight (W). Knowing this you can find the weight of an object if you know the mass because the acceleration will be 9.8 m/s2 due to gravities pull on the object. The equation to use then is: W = mass x acceleration. What is the weight of a 53 kg man? 6. How much would a 75 kg man weigh due to the effect of gravity? 7. What is the weight of a ball with a mass of 0.77 kg? 8. What is the magnitude of the force that is exerted on a 20 kg mass to give it an acceleration of 10.0 m/s2? 9. What is the magnitude of the acceleration that is produced when the brakes of a 2.4 x 103 kg car apply a 3.2 x 103 N force to stop the car? 10. How many Newtons (N) of force are needed to accelerate a 100 kg at 4 m/s2?   #$ f g 6 ? 2 3 4 y z &'±ʣh#&h#h#6CJOJQJ]^JaJh#CJOJQJ^JaJ h#h#CJOJQJ^JaJh#CJaJh#h#CJaJh#h#>*CJaJh#h#5>*CJ\aJh#h#5>*CJ \aJ $ f g h i 2 3 4 5 x y z { gd#$a$gd# '()*gd# ;0P:p#/ =!"#$% Dps2&6FVfv2(&6FVfv&6FVfv&6FVfv&6FVfv&6FVfv&6FVfv8XV~ 0@ 0@ 0@ 0@ 0@ 0@ 0@ 0@ 0@ 0@ 0@ 0@ 0@ 0@_HmH nH sH tH @`@ NormalCJ_HaJmH sH tH DA D Default Paragraph FontRiR  Table Normal4 l4a (k (No List bob #Default 7$8$H$-B*CJOJQJ^J_HaJmH phsH tH PK![Content_Types].xmlN0EH-J@%ǎǢ|ș$زULTB l,3;rØJB+$G]7O٭VvnB`2ǃ,!"E3p#9GQd; H xuv 0F[,F᚜K sO'3w #vfSVbsؠyX p5veuw 1z@ l,i!b I jZ2|9L$Z15xl.(zm${d:\@'23œln$^-@^i?D&|#td!6lġB"&63yy@t!HjpU*yeXry3~{s:FXI O5Y[Y!}S˪.7bd|n]671. tn/w/+[t6}PsںsL. J;̊iN $AI)t2 Lmx:(}\-i*xQCJuWl'QyI@ھ m2DBAR4 w¢naQ`ԲɁ W=0#xBdT/.3-F>bYL%׭˓KK 6HhfPQ=h)GBms]_Ԡ'CZѨys v@c])h7Jهic?FS.NP$ e&\Ӏ+I "'%QÕ@c![paAV.9Hd<ӮHVX*%A{Yr Aբ pxSL9":3U5U NC(p%u@;[d`4)]t#9M4W=P5*f̰lk<_X-C wT%Ժ}B% Y,] A̠&oʰŨ; \lc`|,bUvPK! ѐ'theme/theme/_rels/themeManager.xml.relsM 0wooӺ&݈Э5 6?$Q ,.aic21h:qm@RN;d`o7gK(M&$R(.1r'JЊT8V"AȻHu}|$b{P8g/]QAsم(#L[PK-![Content_Types].xmlPK-!֧6 0_rels/.relsPK-!kytheme/theme/themeManager.xmlPK-!R%theme/theme/theme1.xmlPK-! ѐ' theme/theme/_rels/themeManager.xml.relsPK]   8@0(  B S  ?KK9*urn:schemas-microsoft-com:office:smarttagsplace8*urn:schemas-microsoft-com:office:smarttagsCity ##fg2#@u@@UnknownG.Cx Times New Roman5Symbol3. .Cx ArialACambria Math"h$HG$HG   !r4  3QHP)?#2!xx #Newton s 2nd Law Problems WorksheetBrannonChathamneil breakwell Oh+'0 (4 T ` lx$Newtons 2nd Law Problems WorksheetBrannonChathamNormalneil breakwell2Microsoft Office Word@@ͳ@ͳ  ՜.+,0 hp  LISD   $Newtons 2nd Law Problems Worksheet Title  !"$%&'()*,-./0125Root Entry F@O7Data  1TableeWordDocument=SummaryInformation(#DocumentSummaryInformation8+CompObjr  F Microsoft Word 97-2003 Document MSWordDocWord.Document.89q