How to connect dots on graph?
Ältere Kommentare anzeigen
I have a code that holds some energy values for some n states(n=1,2,3,4,5... etc) I want to connect these values for same n numbers. However, I have values by second variable which is E-field (=0.1 , 0.2 , 0.3... etc). I need to plot Energy values vs E-field. So i can only plot the values as dots. how can i connect them as i show in picture?
Here's my code that only plot dots:
E1=[0.229711113281264;0.244475859375016;0.261230097656256;0.283730156249987;0.311849589843713;0.344379609374935;0.379151660156155;0.412348945312377;0.440260371093603];
E2=[0.238093886718765;0.260254335937507;0.279635683593740;0.301875937499971;0.329453378906198;0.361535156249920;0.395869863281141;0.429274687499862;0.463113339843583];
E3=[0.244694238281266;0.273560273437496;0.297322089843725;0.320574257812455;0.347550292968682;0.378919335937405;0.412740058593626;0.447448828124847;0.488205761718562];
E4=[0.250286660156265;0.285135234374986;0.313481660156211;0.339145078124939;0.366044472656166;0.396619687499890;0.430194082031111;0.467239687499830;0.514716503906040];
E5=[0.255198222656261;0.295503046874977;0.328158457031199;0.356915859374924;0.384692636718650;0.414790078124875;0.448644785156096;0.488550234374812;0.542196972656016];
E6=[0.259605410156258;0.304969453124969;0.341621425781187;0.373596210937410;0.403165253906135;0.433584023437359;0.468303222656079;0.511142695312293;0.570388300780993];
E7=[0.263617441406254;0.313727578124961;0.354115136718677;0.389235234374897;0.421238613281119;0.453036093749842;0.489155683593561;0.534785976562273;0.599128183593469;0.830071523437023];
E8=[0.267308027343751;0.321910312499954;0.365831894531167;0.404029453124884;0.438887988281104;0.473031210937325;0.511045605468543;0.559290117187253;0.628306582030944;0.836473710937018];
E9=[0.270730136718748;0.329615156249948;0.376924863281157;0.418195195312372;0.456210761718590;0.493391718749808;0.533761933593524;0.584503828124731;0.657845332030919;0.842466445312013];
E10=[0.273923496093745;0.336917695312442;0.387519667968648;0.431917382812361;0.473320605468575;0.513964687499791;0.557098300781005;0.610304999999710;0.687685605468395;0.848114062499509;0.956153847655667];
x1=.1;
x2=.2;
x3=.3;
x4=.4;
x5=.5;
x6=.6;
x7=.7;
x8=.8;
x9=.9;
x10=1;
hold on
grid on
axis([0 1 0.2 1])
xlabel('E field (V/m)')
ylabel('Energy Values (eV)')
plot(x1,E1,'o')
plot(x2,E2,'o')
plot(x3,E3,'o')
plot(x4,E4,'o')
plot(x5,E5,'o')
plot(x6,E6,'o')
plot(x7,E7,'o')
plot(x8,E8,'o')
plot(x9,E9,'o')
plot(x10,E10,'o')
Akzeptierte Antwort
E1=[0.229711113281264;0.244475859375016;0.261230097656256;0.283730156249987;0.311849589843713;0.344379609374935;0.379151660156155;0.412348945312377;0.440260371093603];
E2=[0.238093886718765;0.260254335937507;0.279635683593740;0.301875937499971;0.329453378906198;0.361535156249920;0.395869863281141;0.429274687499862;0.463113339843583];
E3=[0.244694238281266;0.273560273437496;0.297322089843725;0.320574257812455;0.347550292968682;0.378919335937405;0.412740058593626;0.447448828124847;0.488205761718562];
E4=[0.250286660156265;0.285135234374986;0.313481660156211;0.339145078124939;0.366044472656166;0.396619687499890;0.430194082031111;0.467239687499830;0.514716503906040];
E5=[0.255198222656261;0.295503046874977;0.328158457031199;0.356915859374924;0.384692636718650;0.414790078124875;0.448644785156096;0.488550234374812;0.542196972656016];
E6=[0.259605410156258;0.304969453124969;0.341621425781187;0.373596210937410;0.403165253906135;0.433584023437359;0.468303222656079;0.511142695312293;0.570388300780993];
E7=[0.263617441406254;0.313727578124961;0.354115136718677;0.389235234374897;0.421238613281119;0.453036093749842;0.489155683593561;0.534785976562273;0.599128183593469;0.830071523437023];
E8=[0.267308027343751;0.321910312499954;0.365831894531167;0.404029453124884;0.438887988281104;0.473031210937325;0.511045605468543;0.559290117187253;0.628306582030944;0.836473710937018];
E9=[0.270730136718748;0.329615156249948;0.376924863281157;0.418195195312372;0.456210761718590;0.493391718749808;0.533761933593524;0.584503828124731;0.657845332030919;0.842466445312013];
E10=[0.273923496093745;0.336917695312442;0.387519667968648;0.431917382812361;0.473320605468575;0.513964687499791;0.557098300781005;0.610304999999710;0.687685605468395;0.848114062499509;0.956153847655667];
x1=.1;
x2=.2;
x3=.3;
x4=.4;
x5=.5;
x6=.6;
x7=.7;
x8=.8;
x9=.9;
x10=1;
hold on
grid on
axis([0 1 0.2 1])
xlabel('E field (V/m)')
ylabel('Energy Values (eV)')
plot(x1*ones(size(E1)),E1,'-o')
plot(x2*ones(size(E2)),E2,'-o')
plot(x3*ones(size(E3)),E3,'-o')
plot(x4*ones(size(E4)),E4,'-o')
plot(x5*ones(size(E5)),E5,'-o')
plot(x6*ones(size(E6)),E6,'-o')
plot(x7*ones(size(E7)),E7,'-o')
plot(x8*ones(size(E8)),E8,'-o')
plot(x9*ones(size(E9)),E9,'-o')
plot(x10*ones(size(E10)),E10,'-o')
5 Kommentare
Ege Tunç
am 22 Mai 2019
E values should be plotted as vertical. For ex, E1 values are plotted as dots. Then i need to connect every first, second, third, fourth etc. element of E values. So like this
x = [x1 x2 x3 x4 x5 x6 x7 x8 x9 x10] ;
hold on
grid on
axis([0 1 0.2 1])
xlabel('E field (V/m)')
ylabel('Energy Values (eV)')
plot(x(1:1),E1,'-o')
plot(x(2:2),E2,'-o')
plot(x(3:3),E3,'-o')
plot(x(4:4),E4,'-o')
plot(x(5:5),E5,'-o')
plot(x(6:6),E6,'-o')
plot(x(7:7),E7,'-o')
plot(x(8:8),E8,'-o')
plot(x(9:9),E9,'-o')
plot(x(10:10),E10,'-o')
KSSV
am 22 Mai 2019
Edited the code.
KSSV
am 22 Mai 2019
In that case the first code works......your E's all should be of same size....they were not.
Ege Tunç
am 22 Mai 2019
Weitere Antworten (0)
Kategorien
Mehr zu 2-D and 3-D Plots finden Sie in Hilfe-Center und File Exchange
Community Treasure Hunt
Find the treasures in MATLAB Central and discover how the community can help you!
Start Hunting!
Translated by 
