comment { Carr1100.ufm Version 1.0 Ultra Fractal conversions of Robert Carr's formulas Carr1100 - Carr1199 by Erik Reckase, February 22, 2000 History: Version 1.0 - Initial Release Original formulas pulled from _rc1.frm Carr1100-1107,1110,1137, 1140-1143,1146,1150, 1152,1155-1156,1160, 1161,1163,1165-1167, 1169-1170,1173,1177, 1178,1186,1190-1199 : cosxx fix } Carr1100 { z=sinh((2.5/pixel)/(2.95,0)), c=conj(cos((2.5/pixel)/(2.95,0))): z=(pixel-sqr(z/c)-1/pixel)/(pixel-c*c) z=z*1/c |real(z)| <=100 ;SOURCE: 26carr.frm } Carr1101 { z=sinh((2.5/pixel)/(1.099,0)), c=conj(cos((2.5/pixel)/(1.099,0))): z=(pixel-sqr(z/c)-2/pixel)/(pixel-c*c) z=z*1/c |real(z)| <=100 ;SOURCE: 26carr.frm } Carr1102 { z=sinh((2.5/pixel)/(2.099,0)), c=conj(cos((2.5/pixel)/(2.099,0))): z=(pixel-sqr(z/c)-2/pixel)/(pixel-c*c) z=sqr(z*1/c) |real(z)| <=100 ;SOURCE: 26carr.frm } Carr1103 { z=sinh((2.5/pixel)/(2.099,0)), c=conj(cos((2.5/pixel)/(2.099,0))): z=(pixel-sqr(z/c)-2/pixel)/(pixel-c*c) z=sinh(z*1/c) |real(z)| <=100 ;SOURCE: 26carr.frm } Carr1104 { z=sinh((2.5/pixel)/(1.095,0)), c=conj(cos((2.5/pixel)/(1.095,0))): z=(pixel-sqr(z/c)-1.5/pixel)/(pixel-c*c) z=(pixel-(z/c-1/pixel))/(pixel-c*c) |real(z)| <=100 ;SOURCE: 26carr.frm } Carr1105 { z=sinh((2.5/pixel)/(1.095,0)), c=conj(cos((2.5/pixel)/(1.095,0))): z=(pixel-(z/c-1/pixel))/(pixel-c*c) |real(z)| <=100 ;SOURCE: 26carr.frm } Carr1106 { z=sinh((2.5/pixel)/(1.095,0)), c=conj(cos((2.5/pixel)/(1.095,0))): z=z*z+c z=(pixel-(z*1/c-1/pixel))/(pixel-c*c) |real(z)| <=100 ;SOURCE: 26carr.frm } Carr1107 { z=conj((2.5/pixel)/(1.095,0)), c=conj(cos((2.5/pixel)/(1.095,0))): z=(log(z^2)^conj(z*1/c)+1/pixel)/(pixel-c*c) |real(z)| <=100 ;SOURCE: 26carr.frm } Carr1108 { z=conj((2.699,0)/(4/pixel)), c=flip((2.699,0)/(1/pixel)): z=(z*1/c)/(pixel-c*c) z=z/c |real(z)| <=100 ;SOURCE: 26carr.frm } Carr1109 { z=(1/pixel)/(1.099,0), c=pixel/(1.099,0): z=(z*z/(sinh(z)))*1/c |z| <= 100 ;SOURCE: 26carr.frm } Carr1110 { z=(1/pixel)/(1.099,0), c=pixel/(1.099,0): z=(z*z/(conj(cos(z))))*1/c |z| <= 100 ;SOURCE: 26carr.frm } Carr1111 { z=1/pixel*0.91/pixel, c=cabs(1/pixel)/cotanh(1.099,0): z=(sqr(conj(z*1/c))+(pixel)) |real(z)| <=100 ;SOURCE: 26carr.frm } Carr1112 { z=1/pixel*0.91/pixel, c=cabs(1/pixel*1/pixel)/cotanh(1.099,0): z=((sqr(conj(z*1/c))+(pixel*pixel)))/(pixel-z*1/c) |real(z)| <=100 ;SOURCE: 26carr.frm } Carr1113 { z=cabs(1/pixel), c=cabs(1/pixel)/tanh(1.099,0): z=((sqr(conj(z*1/c))+(pixel*pixel)))/(pixel-z/c) |real(z)| <=100 ;SOURCE: 26carr.frm } Carr1114 { z=(1/pixel)/(1.099,0), c=(pixel-0.5)/(1.099,0): z=sqr(z)+conj((pixel-c)-1) |real(z)| <=100 ;SOURCE: 26carr.frm } Carr1115 { z=(1/pixel)/(1.099,0), c=(pixel-0.5)/(1.099,0): z=(sqr(z)+conj((pixel-c)-1))/(pixel-z/c) |real(z)| <=100 ;SOURCE: 26carr.frm } Carr1116 { z=(1/pixel)/(2.0,0), c=(pixel-0.5)/(2.0,0): z=(sqr(conj(z*1/c))+conj((pixel-c)-1))/(pixel-z*z+c) |real(z)| <=100 ;SOURCE: 26carr.frm } Carr1117 { z=(2.0,0)/(1/pixel), c=(2.0,0)/(pixel-0.5): z=(sqr(conj(z))+conj((pixel-c)-1))/(pixel-z*1/c) |real(z)| <=100 ;SOURCE: 26carr.frm } Carr1118 { z=(2.3,0)/(1/pixel), c=(2.3,0)/(pixel-0.67): z=(sqr(conj(z-1/pixel))+conj((pixel-z/c)-1))/(pixel-z*1/c) |real(z)| <=100 ;SOURCE: 26carr.frm } Carr1119 { z=(2.3,0)/(4/pixel), c=(2.3,0)/(pixel-0.67): z=z*1/c z=(sqr(conj(z-1/pixel))+conj((pixel-z/c)-1))/(pixel-z*1/c) |real(z)| <=100 ;SOURCE: 26carr.frm } Carr1120 { z=(0.3,0)/(4/pixel), c=1/(pixel-0.87): z=(z/c)/(pixel-c*c) z=(sqr(conj(z-1/pixel))+conj((pixel-z/c)-1))/(pixel-z*1/c) |real(z)| <=100 ;SOURCE: 26carr.frm } Carr1121 { z=(0.9,0)/(4/pixel), c=1.23/(pixel-0.87): z=z*1/c z=(pixel-z*z)/((pixel-c*c)+1/pixel) |real(z)| <=100 ;SOURCE: 26carr.frm } Carr1122 { z=(0.3,0.6)/(3/pixel), c=1.63/(pixel-0.87): z=(z*z+c)/1.34 z=(pixel-z*z)/((pixel-c*c)+1/pixel) |real(z)| <=100 ;SOURCE: 26carr.frm } Carr1123 { z=(1.099,0)/(pixel-(1.099,0)), c=1/pixel: z=pixel-((z-1)/z+exp(z))/(pixel-(z*1/c)) |real(z)| <=100 ;SOURCE: 26carr.frm } Carr1124 { z=(1.099,0)/(pixel-(1.099,0)), c=exp(1/pixel*0.91/pixel): z=(z*1/c+1/pixel)/(pixel-conj(c*c)) z=z*1/c |real(z)| <=100 ;SOURCE: 26carr.frm } Carr1125 { z=exp(1.099,0)/(pixel-(1.099,0)), c=exp(1/pixel*0.91/pixel): z=(z*1/c+1/pixel)/(pixel-conj(c*c)) z=z*z*z+c |real(z)| <=100 ;SOURCE: 26carr.frm } Carr1126 { z=exp(1.099,0)/((1.099,0)+pixel) c=(exp(1/pixel*0.91/pixel))/(0.3,0.6): z=z+c-abs(imag(z)) |real(z)| <=100 ;SOURCE: 26carr.frm } Carr1127 { z=exp(1.099,0)/((1.099,0)+pixel) c=(exp(1/pixel*0.91/pixel))/(0.3,0.6): z=(z+c-abs(imag(z)))/(pixel-c*c) |real(z)| <=100 ;SOURCE: 26carr.frm } Carr1128 { z=exp(2.099,0)/((1.099,0)+pixel) c=(exp(1/pixel*0.91/pixel))/(1.099,0): z=(z+c-abs(imag(z))) |real(z)| <=100 ;SOURCE: 26carr.frm } Carr1129 { z=sqrt(2.099,0)/((1.099,0)+pixel) c=(exp(1/pixel*0.91/pixel))/(1.099,0): z=(z+c-abs(imag(z))) |real(z)| <=100 ;SOURCE: 26carr.frm } Carr1130 { z=sqrt((1.099,0)+pixel)/(1.099,0) c=(exp(1/pixel*0.91/pixel))/(1.099,0): z=(z+c-abs(imag(z))) |real(z)| <=100 ;SOURCE: 26carr.frm } Carr1131 { z=sqrt((1.099,0)+pixel)/(1.099,0) c=(1/pixel*0.91/pixel)/(1.099,0): z=(z+c-abs(imag(conj(z))))/(1/pixel) |real(z)| <=100 ;SOURCE: 26carr.frm } Carr1132 { z=cotanh((1.099,0)+pixel)/(1.099,0) c=(1/pixel*0.91/pixel)/(1.099,0): z=(z+c-abs(imag(conj(z))))/(1/pixel) |real(z)| <=100 ;SOURCE: 26carr.frm } Carr1133 { z=cotanh((1.099,0)+pixel)/(1.099,0) c=(1/pixel*0.91/pixel)/(1.099,0): z=(z+c-abs(imag(conj(z))))/(1/pixel) z=(z+c-abs(imag(conj(z))))/(1/pixel) |real(z)| <=100 ;SOURCE: 26carr.frm } Carr1134 { z=sqrt((1.099,0)+pixel)/sinh(1.099,0) c=exp(1/pixel*0.91/pixel)/sinh(1.099,0): z=(z+c-abs(imag(conj(z))))/(1/pixel) z=(z+c-abs(imag(conj(z))))/(1/pixel) |real(z)| <=100 ;SOURCE: 26carr.frm } Carr1135 { z=sqrt((1.099,0)+pixel)/(1.099,0) c=sqr(pixel)/sqr(1/(1.099,0)): z=c-z*(1.099,0) z=c-z*pixel |real(z)| <=100 ;SOURCE: 26carr.frm } Carr1136 { z=sqrt((1.099,0)+pixel)/(1.099,0) c=sqr(pixel)/sqr(1/(1.099,0)): z=pixel-(c-z*(1.099,0)) z=(1.099,0)-(c-z*pixel) |real(z)| <=100 ;SOURCE: 26carr.frm } Carr1137 (XAXIS_NOPARM) {; FractalFenderC modified ; Edited for Fractint v.20 by George Martin, 10/98 z=(pixel)/(1.099,0), x=|z|: IF (x>1) z=conj(cos(z))+pixel ENDIF z=sqr(z)+pixel x=|z| x<=4 ;SOURCE: 26carr.frm } Carr1138 (XAXIS_NOPARM) {; FractalFenderC modified ; Edited for Fractint v.20 by George Martin, 10/98 z=(pixel)/(2.099,0), x=|z|: IF (x>1) z=sinh(z)+pixel ENDIF z=sqr(z)+(pixel) x=|z| x<=4 ;SOURCE: 26carr.frm } Carr1139 (XAXIS_NOPARM) {; FractalFenderC modified ; Edited for Fractint v.20 by George Martin, 10/98 z=(pixel)/(2.099,0), x=|z|: IF (x>1) z=sinh(z)+pixel ENDIF z=(z*z)+(pixel*pixel*pixel) x=|z| x<=4 ;SOURCE: 26carr.frm } Carr1140 { z=pixel/((1.099,0)*(1/pixel)) c=pixel^(1/conj(cos(pixel))): z=sqr(1/pixel)+conj(z+c-abs(imag(|z|))) |real(z)| <=100 ;SOURCE: 26carr.frm } Carr1141 { z=pixel/((1.099,0)*(1/pixel)) c=pixel^(1/conj(cos(pixel))): z=sqr(z*1/c)+conj(z+c-abs(imag(|z|))) |real(z)| <=100 ;SOURCE: 26carr.frm } Carr1142 { z=pixel/((1.099,0)*(1/pixel)) c=pixel^(1/conj(cos(pixel))): z=sqr(z*1/c)+sqrt(z+c-abs(imag(|z|))) |real(z)| <=100 ;SOURCE: 26carr.frm } Carr1143 { z=imag(pixel/((1.099,0)*(1/pixel))) c=pixel^(2/conj(cos(pixel))): z=sqr(z*1/c)+imag(z+c-abs(imag(|z|))) |real(z)| <=100 ;SOURCE: 26carr.frm } Carr1144 { z=imag(pixel/((2.099,0)*(1/pixel))) c=pixel^(2/conj(pixel)): z=sqr(z/c)+imag(z+c-abs(imag(|z-0.002|))) |real(z)| <=100 ;SOURCE: 26carr.frm } Carr1145 { z=imag(pixel/((2.099,0)*(1/pixel))) c=pixel^(2/conj(pixel)): z=sqr(1/z^z*z+z)+imag(z+c-abs(imag(|z-0.002|))) |real(z)| <=100 ;SOURCE: 26carr.frm } Carr1146 { z=(pixel/((2.099,0)*conj(cos(1/pixel)))) c=imag(pixel^(1/flip(pixel))): z=(z*z+c)+imag(z+c-abs(imag(|z-0.002|))) |real(z)| <=100 ;SOURCE: 26carr.frm } Carr1147 { z=(pixel/((2.099,0)*conj(cos(1/pixel)))) c=imag(pixel^(1/sqr(pixel))): z=(pixel-z*z)/(pixel-c*c) |real(z)| <=100 ;SOURCE: 26carr.frm } Carr1148 { z=pixel^(sinh(pixel)/cosh(pixel)) c=pixel/((1.099,0)*1/z): z=(sinh(z)/cosh(c)) |real(z)| <=100 ;SOURCE: 26carr.frm } Carr1149 { z=pixel^(sinh(1.099,0)/cosh(pixel)) c=pixel/((2.099,0)*1/z): z=(sinh(z*z))/(cosh(c*c)) |real(z)| <=100 ;SOURCE: 26carr.frm } Carr1150 { z=pixel^(sinh(1.099,0)/cosh(pixel)) c=pixel/((2.099,0)*1/z): z=conj(cos(z))+c |real(z)| <=100 ;SOURCE: 27carr.frm } Carr1151 { z=pixel/((1.099,0)^(pixel)) c=(pixel/((2.099,0)*1/z)): z=(z*z+c)/(z*1/c) |real(z)| <=100 ;SOURCE: 27carr.frm } Carr1152 { z=pixel/((1.099,0)^(pixel)) c=(pixel/((2.099,0)*1/z)): z=conj(cos((z*z+c)/(z*1/c))) |real(z)| <=100 ;SOURCE: 27carr.frm } Carr1153 { z=1/pixel c=(1.099,0)/(pixel-z): z=(cotanh(z*z+(1/z*z)+pixel)/(pixel-c*c))/1.46 |real(z)| <=100 ;SOURCE: 27carr.frm } Carr1154 { z=1/pixel c=(0.3,0.6)/(pixel-z*z): z=(z*z-(pixel*pixel*pixel))/(z*z+c)/(pixel-c*c) |real(z)| <=100 ;SOURCE: 27carr.frm } Carr1155 (XAXIS_NOPARM) {; FractalFenderC modified ; Modified Lee Skinner frm. ; Edited for Fractint v. 20 by George Martin, 10/98 z=(pixel)/(1.099,0), x=|z|: IF (x>1) z=conj(cos(z))+sqr(pixel) ENDIF z=sqr(z)+(pixel) x=|z| x<=4 ;SOURCE: 27carr.frm } Carr1156 (XAXIS_NOPARM) {; FractalFenderC modified ; Modified Lee Skinner frm. ; Edited for Fractint v. 20 by George Martin, 10/98 z=(pixel)/(1.099,0), x=|z|: IF (x>1) z=conj(cos(z))+sqr(pixel) ENDIF z=sqr(z)+(pixel/(1.099,0)) x=|z| x<=4 ;SOURCE: 27carr.frm } Carr1157 {; Modified Wareman formula z=1/pixel, root=(1.099,0): z3=z*z*z z4=z3*z z=(3*z4+root)/(4*z3) |real(z)| <=100 ;SOURCE: 27carr.frm } Carr1158 { z=1/pixel*0.91/pixel, c=pixel/(1.099,0): z=(c*sqr(z)+pixel)/(pixel-z*1/c) |real(z)| <=100 ;SOURCE: 27carr.frm } Carr1159 { z=1/pixel*0.91/pixel, c=pixel/(1.099,0): z=z-(c*sqr(z)+pixel)/(pixel-z*1/c) |real(z)| <=100 ;SOURCE: 27carr.frm } Carr1160 { z=1/pixel*0.91/pixel, c=pixel/(1.099,0): z=z-conj(cos(c*sqr(z)+pixel))/(pixel-z*1/c) |real(z)| <=100 ;SOURCE: 27carr.frm } Carr1161 { z=1/pixel*0.91/pixel, c=pixel/(1.099,0): z=cabs(z)-conj(cos(c*sqr(z)+pixel))/(pixel-z*1/c) |real(z)| <=100 ;SOURCE: 27carr.frm } Carr1162 {; Forms Faberge' Eggs z=1/pixel*0.91/pixel, c=pixel/(1.099,0): z=z-(cosh(z+pixel))/(z*1/c) |real(z)| <=100 ;SOURCE: 27carr.frm } Carr1163 { z=1/pixel*0.91/pixel, c=pixel/(1.099,0): z=z-(conj(cos(z+pixel)))/(z*1/c) |real(z)| <=100 ;SOURCE: 27carr.frm } Carr1164 { z=1/pixel*0.91/pixel, c=pixel/(1.099,0): z=z-(cotanh(z+pixel))/(z*1/c) |real(z)| <=100 ;SOURCE: 27carr.frm } Carr1165 { z=1/pixel*0.91/pixel, c=pixel/(1.099,0): z=z-(conj(cos(z*z+c))+pixel)/(z*1/c) |real(z)| <=100 ;SOURCE: 27carr.frm } Carr1166 { z=1/pixel*0.91/pixel, c=(1.099,0)/pixel: z=z-(conj(cos(z*1/c+pixel)))/sqr(z/c) |real(z)| <=100 ;SOURCE: 27carr.frm } Carr1167 { z=sqr(1/pixel*0.91/pixel), c=(1.099,0)/pixel: z=z-1/(conj(cos(z/c+pixel)))/sqr(z/c) |real(z)| <=100 ;SOURCE: 27carr.frm } Carr1168 { z=sqr(1/pixel*0.91/pixel), c=(1.099,0)/pixel: z=z-1/(sinh(z/c-pixel))/sqr(z/c) |real(z)| <=100 ;SOURCE: 27carr.frm } Carr1169 { z=pixel/(1.099,0) c=((1/pixel)/2)/z-2.5^(pixel+2.324)/(1.099,0): z=pixel-(conj(cos(z))-z*z+1/c+1/pixel) |real(z)| <=100 ;SOURCE: 27carr.frm } Carr1170 { z=pixel/(1.099,0) c=((1/pixel)/2)/z-2.5^(pixel+2.324)/(1.099,0): z=(pixel-z*z+c)/(pixel-(conj(cos(z))-z*z+1/c+1/pixel)) |real(z)| <=100 ;SOURCE: 27carr.frm } Carr1171 { z=(4/pixel)/(1.099,0) c=z-2.5^(pixel-2.324)/(1.099,0): z=z-(pixel-z*z+c) |real(z)| <=100 ;SOURCE: 27carr.frm } Carr1172 {; Modified Noel Giffin formula z=1/pixel, zp=(0,0): temp=z z=z*z-zp zp=sin(-temp) |zp| <= 4 ;SOURCE: 27carr.frm } Carr1173 {; Ditto above z=1/pixel, zp=exp(1.099,0): temp=real(z) z=exp(z*z+zp) zp=z-(conj(cos(1/temp))) |real(z)| <=100 ;SOURCE: 27carr.frm } Carr1174 {; Modified Noel Giffin formula z=pixel, zp1=zp2=zp3=(0,0): temp=z z=z*z-zp3 zp3=zp2 zp2=zp1 zp1=conj(temp) |zp1| <=100 ;SOURCE: 27carr.frm } Carr1175 {; Modified Noel Giffin formula z=pixel, zp1=zp2=zp3=(0,0): temp=z z=imag(z*z)-zp3 zp3=zp2 zp2=zp1 zp1=conj(temp) |zp1| <=100 ;SOURCE: 27carr.frm } Carr1176 {; Ditto above z=1/pixel, zp=(0,0): temp=z z=z*z-cos(zp) zp=conj(temp) |zp| <=100 ;SOURCE: 27carr.frm } Carr1177 {; Ditto above z=conj(cos(1/pixel*1/pixel*1/pixel)), zp=(0,0): temp=z z=z*z-cos(zp) zp=conj(temp) |zp| <=100 ;SOURCE: 27carr.frm } Carr1178 {; Modified Noel Giffin formula z=conj(cos(pixel)), zp1=zp2=zp3=(0,0): temp=z z=z*z-zp3 zp3=zp2 zp2=zp1 zp1=conj(temp) |zp1| <=100 ;SOURCE: 27carr.frm } Carr1179 {; Modified Noel Giffin formula z=sqr(pixel*pixel+pixel), zp1=zp2=zp3=(1/pixel): temp=z z=z*1/zp3 zp3=zp2 zp2=zp1 zp1=conj(temp) |zp1| <=100 ;SOURCE: 27carr.frm } Carr1180 {; Modified Noel Giffin formula z=sqr(pixel*pixel+pixel), zp1=zp2=zp3=cotanh(1/-pixel): temp=z z=z*1/zp3 zp3=zp2 zp2=zp1 zp1=conj(temp) |zp1| <=100 ;SOURCE: 27carr.frm } Carr1181 {; Modified Noel Giffin formula z=sqr(pixel*pixel+pixel), zp1=zp2=zp3=log(1/-pixel): temp=z z=z-(z*1/zp3) zp3=zp2 zp2=zp1 zp1=conj(temp) |zp1| <=100 ;SOURCE: 27carr.frm } Carr1182 {; Modified Noel Giffin formula z=sqr(pixel*pixel+pixel), zp1=zp2=zp3=log(1/-pixel): temp=z z=z-(z*1/zp3+1/pixel) zp3=(zp2) zp2=(zp1) zp1=conj(temp) |zp1| <=100 ;SOURCE: 27carr.frm } Carr1183 {; Modified Noel Giffin formula z=sqr(pixel*pixel+pixel), zp1=zp2=zp3=log(1/-pixel): temp=cabs(z) z=z-(z*1/zp3+conj(1/pixel)) zp3=(zp2) zp2=(zp1) zp1=conj(temp) |zp1| <=100 ;SOURCE: 27carr.frm } Carr1184 {; Modified Noel Giffin formula z=sqr(pixel*pixel+pixel), zp1=zp2=zp3=sqr(1/-pixel): temp=cabs(z-0.5) z=z-(z*1/zp3+conj(1/pixel)) zp3=(zp2) zp2=(zp1) zp1=conj(temp) |zp1| <=100 ;SOURCE: 27carr.frm } Carr1185 {; Modified Noel Giffin formula z=sqr(pixel*pixel+pixel), zp1=zp2=zp3=sqr(2*(1/-pixel)): temp=cabs(z-0.25) z=z-(z*1/zp3+conj(1/pixel)) zp3=(zp2) zp2=(zp1) zp1=conj(temp) |zp1| <=100 ;SOURCE: 27carr.frm } Carr1186 {; Modified Noel Giffin formula z=sqr(pixel*pixel+pixel), zp1=zp2=zp3=sqr(conj(cos(1/-pixel))): temp=cabs(z-1.25) z=z-(z*1/zp3+cabs(1/pixel)) zp3=(zp2) zp2=(zp1) zp1=conj(temp) |zp1| <=100 ;SOURCE: 27carr.frm } Carr1187 {; Modified Noel Giffin formula z=zp1=pixel, zp2=(1.099,0): temp=z z=z-(z*zp2-zp1) zp2=zp1^.5 zp1=temp |zp1| <=100 ;SOURCE: 27carr.frm } Carr1188 {; Modified Noel Giffin formula z=zp1=pixel, zp2=(1.099,0), zp3=sqr(1/pixel*0.91/pixel): temp=z z=z-(z*zp2-zp1) zp2=zp1^z zp3=1/pixel zp1=(temp) |zp1| <=100 ;SOURCE: 27carr.frm } Carr1189 {; Modified Noel Giffin formula z=pixel^2.34, zp1=zp2=zp3=(1/pixel)*(1.099,0) c=z-(1/pixel): temp=cabs(z) z=z-(z*z+c)/(pixel-c*c) zp3=(zp2) zp2=(zp1) zp1=conj(temp) |zp1| <=100 ;SOURCE: 27carr.frm } Carr1190 { z=1/pixel, c=conj(cos(1/pixel)): z=sqr(sqr(z*c))+c+(1.099,0) |real(z)| <=100 ;SOURCE: 27carr.frm } Carr1191 { z=1/pixel, c=conj(cos(1/pixel)): z=conj(cos(sqr(sqr(z*1/c))))+c+(1.099,0) |real(z)| <=100 ;SOURCE: 27carr.frm } Carr1192 {; Modified (Modified Newton; Tim Wegner) ; from MISCBLB.FRM z=1/pixel, z2=z*z+c, z3=z*(conj(cos(z2))) c=conj(cos(1/pixel*0.91/pixel)): z=z-(z3+p1*z2+1)/(6*z2+4*p1*z) z2=z*z/c*c z3=z*z2 p2<=|z3+p1*z2+1| ;SOURCE: 27carr.frm } Carr1193 { z=conj(1/pixel*0.91/pixel), z2=z+conj(conj(cos(1/pixel))), z3=z*z2 c=1/conj(cos(sqr(pixel))): z=z*1/c z2=z2*1/c z3=z3*1/c |real(z)| <=100 ;SOURCE: 27carr.frm } Carr1194 {; Creates VERY nice images z=conj(1/pixel*0.91/pixel), z2=z+conj(conj(cos(1/pixel))), z3=z*z2 c=1/conj(cos(sqr(pixel))): z=z-(z*z+c) z2=z2*1/c z3=z3*1/c |real(z)| <=100 ;SOURCE: 27carr.frm } Carr1195 { z=conj(1/pixel*0.91/pixel), z2=z+conj(conj(cos(1/pixel))), z3=z*z2 c=1/conj(cos(sqr(pixel))): z=(z*1/c)/(pixel-c*c) z2=z2*1/c z3=z3*1/c |real(z)| <=100 ;SOURCE: 27carr.frm } Carr1196 { z=conj(1/pixel*0.91/pixel), z2=z+conj(conj(cos(1/pixel))), z3=z*z2 c=(1/conj(cos(sqr(pixel))))/(1.099,0): z=(z*1/c)/(pixel-c*c) z2=z2*1/c z3=z3*1/c |real(z)| <=100 ;SOURCE: 27carr.frm } Carr1197 { z=conj(1/pixel*0.91/pixel), z2=z+exp(conj(cos(1/pixel))), z3=z*z2 c=(1/conj(cos(sqr(pixel))))/(1.099,0): z=(z*1/c) z2=z3-(z2+z/c) z3=z2-(z3+z2) |real(z)| <=100 ;SOURCE: 27carr.frm } Carr1198 { z=conj(1/pixel*0.91/pixel), z2=z+exp(conj(cos(1/pixel))), z3=z*z2 c=(1/conj(cos(sqr(pixel))))/(1.099,0): z=(z/c)/(pixel-c*c) z2=z3-(z2+z/c) z3=z2-(z3+z2) |real(z)| <=100 ;SOURCE: 27carr.frm } Carr1199 { z=exp(1/pixel*0.91/pixel), z2=z+exp(conj(cos(1/pixel))), z3=z*z2 c=(1/conj(cos(sqr(pixel))))/(1.099,0): z=(z-(z/c)/(pixel-c*c))/1.4 z2=z3-(z2+z/c) z3=z2-(z3+z2) |real(z)| <=100 ;SOURCE: 27carr.frm }