A= AP= C0= C1= C2= C3= C4= C5= C6= C7= C8= C9= ES=Answers may vary. F0=In V14, it can be estimated that F1=V25 F2= billion dollars was spent on education. H=$.hint$ INST= M1= M2= M3= M4= M5= M6= M7= M8= M9= MS=1 MW1= MW2= MW3= MW4= MW5= MW6= MW7= MW8= MW9= N=V3 Q=Suppose the following are the amounts (to the nearest billion) spent on education for selected years:
\n\n$space:h1w150$\n V0 \n V2 \n V3 \n V4 \n\n V5 \n V6 \n V7 \n V8 \n\n

Use a line graph to estimate how much was spent on education in V14. Round your final answer to the nearest whole number. SA=Answers may vary. T=F TF=-1 TL=0.3 TOL=+1E-4 U=NOUNIT V0=I[1985,1995] V1=I(3) V10=S"x" V11=S"y" V12=E"mkgraph(200,200,'',V0-0.25,V4+0.25,0,35, 'colors=000000', 'xtitle=year', 'ytitle=billions', 'axes=on', 'coord=on', 'selfticks=yes', 'xticks=V0,V2,V3,V4', 'yticks=0,5,10,15,20,25,30,35', 'polygon=(V0,V5),(V3,V7),(V4,V8):yes')" V13=E"mkgraph(350,250,'',V0,V4,V5,V8,'scale=1,1','plottitle=Spending on Education','ytitle=Billions','polygon=(V0,V5),(V2,V6),(V3,V7),(V4,V8):yes')" V14=L[V9:V15,V16,V17,V18,V19,V20] V15=I(V0+1) V16=I(V0+2) V17=I(V0+4) V18=I(V0+5) V19=I(V0+7) V2=I(V0+V1) V20=I(V0+8) V21=I((V6-V5)/(V2-V0)*(V14-V0)+V5) V22=I((V6-V7)/(V2-V3)*(V14-V2)+V6) V23=I((V8-V7)/(V4-V3)*(V14-V3)+V7) V24=L[V9:V21,V21,V22,V22,V23,V23] V25=I(V24*1) V3=I(V2+V1) V4=I(V3+V1) V5=I[10,22] V6=I(V5+4) V7=I(V6+3) V8=I(V7+2) V9=I[1,6] W=\nConstruct a line graph for the data.\n\nBillionsV13Years

\n\nIn V14, it can be estimated that V25 billion dollars was spent on education.\n(round to the nearest whole number):: \n YN=-1 cnum=4 followup= ilev=0 mcdm=1 mdm=0 mpc=unspecified mpn=2 mpv=2.0 mwnum=2 ncd=-1 subject=unspecified varnum=30 commentV0= //year 1 commentV12= //graph commentV13= //graph commentV2= //year 2 commentV21= //use for 1 and 2 commentV22= //use for 3 and 4 commentV23= //use for 5 and 6 commentV3= //year 3 commentV4= //year 4 commentV5= //billions 1 commentV6= //billions 2 commentV7= //billions 3 commentV8= //billions 4