___________________________________________________________________________________________________________________ MENTAL ROTATION for CHILDREN - (with Mouse/Tuch Rotation Training Module) -this script tests for input device and calls either a script that runs for mouse input OR touchscreen input- ___________________________________________________________________________________________________________________ Script Author: Katja Borchert, Ph.D. (katjab@millisecond.com) for Millisecond Software, LLC last updated: 03-03-2022 by K. Borchert (katjab@millisecond.com) for Millisecond Software, LLC Script Copyright © 03-03-2022 Millisecond Software ___________________________________________________________________________________________________________________ BACKGROUND INFO ___________________________________________________________________________________________________________________ This script implements a Mental Rotation Test and Training Module for children. The input device for this script is the mouse OR the touchscreen. The implemented procedure is based on: Wiedenbauer, G. & Jansen-Osmann, P. (2008). Manual training of mental rotation in children. Learning and Instruction, 18, 30-41. ___________________________________________________________________________________________________________________ TASK DESCRIPTION ___________________________________________________________________________________________________________________ For pre-posttest participants are presented 2 pictures of the same animal: on the left, participants see the animal with a 0° rotation (the base stimulus) and on the right, participants see a rotated animal (8 different rotation angles: 20°, 60°, 120°, 160°; clock and counterclockwise). The rotated pic is either derived from the base stimulus or it is derived from the mirror image of the base. Participants are asked to press a green button if the animals are the same and a red button if they are different. 3 phases: 1. Pretest 2. Training Module: Participant are asked to use the mouse/or finger to rotate the comparison images 3. Postte ___________________________________________________________________________________________________________________ DURATION ___________________________________________________________________________________________________________________ the default set-up of the script takes: Pretest: appr. 7 minutes Training: appr. 15 minutes Posttest: appr. 15 minutes = total time: appr. 37 minutes ___________________________________________________________________________________________________________________ DATA FILE INFORMATION ___________________________________________________________________________________________________________________ (1) Raw data file: 'mentalrotationtraining_children_mouse_raw*.iqdat' (a separate file for each participant) build: The specific Inquisit version used (the 'build') that was run computer.platform: the platform the script was run on (win/mac/ios/android) date, time: date and time script was run subject, group: with the current subject/groupnumber session: with the current session id blockcode, blocknum: the name and number of the current block (built-in Inquisit variable) trialcode, trialnum: the name and number of the currently recorded trial (built-in Inquisit variable) Note: trialnum is a built-in Inquisit variable; it counts all trials run; even those that do not store data to the data file such as feedback trials. Thus, trialnum may not reflect the number of main trials run per block. baseItemNumber: stores the current base animal item number being tested (1 = bear....24 = turtle, in alphabetical order) compItemNumber: stores the current comp animal item number Note: if Sameness = 1 then the comp item number should equal the base itemnumber if Sameness = 2 then the comp item number be different from the base itemnumber direction 1 = base looks left; 2 = base looks right angle: stores the current rotation angle being tested sameness: 1 = comp is the same as base; 2 = comp is mirror image of base(looks in opposite direction) stimulusitem.1: the image presented as the base stimulusitem.2: the image presented as the comp Note: rotation is done on the comp image during runtime; no need for a different image file response: the participant's key response (selected response button) pre/posttest: greenbutton_mouse (identical) redbutton_mouse (mirror) training: mousemove, lbuttondown, rbuttondown (indicates being done with rotation) responseCategory: pretest/posttest: 1 = same; 2 = mirror; training: "rotate" "end rotation" correct: the accuracy of the response (1 = correct; 0 = incorrect) latency: the response latency (in ms); measured from onset of stimuli preTest1-preTest6: the itemnumbers of the 6 pretest animals training1-training12: the itemnumbers of the 12 training animals posttest1-posttest12: the itemnumbers of the 12 posttest animals (2) Summary data file: 'mentalrotationtraining_children_mouse_summary*.iqdat' (a separate file for each participant) inquisit.version: Inquisit version run computer.platform: the platform the script was run on (win/mac/ios/android) startDate: date script was run startTime: time script was started subjectid: assigned subject id number groupid: assigned group id number sessionid: assigned session id number elapsedTime: time it took to run script (in ms); measured from onset to offset of script completed: 0 = script was not completed (prematurely aborted); 1 = script was completed (all conditions run) Separate for Prestest/Posttest propCorrect_overall: overall proportion correct (across all pretest/posttest trials) mean_corrRT_overall: overall mean response time of correct responses (across all pretest/posttest trials) Main Effect: Sameness propCorrect_same: proportion correct for all Same trials (across all angles) mean_corrRT_same: mean response time of correct responses to Same trials (across all angles) propCorrect_mirror: proportion correct for all Mirror trials (across all angles) mean_corrRT_mirror: mean response time of correct responses to Mirror trials (across all angles) Main Effect: Angle propCorrect_angle1: proportion correct for all angle1 (here: 22.5deg) (across same/mirror trials) mean_corrRT_angle1: mean response time of correct responses to all angle1 (here: 22.5deg) trials (across same/mirror trials) propCorrect_angle2: proportion correct for all angle2 (here: 67.5deg) (across same/mirror trials) mean_corrRT_angle2: mean response time of correct responses to all angle2 (here: 67.5deg) trials (across same/mirror trials) propCorrect_angle3: proportion correct for all angle3 (here: 112.5deg) (across same/mirror trials) mean_corrRT_angle3: mean response time of correct responses to all angle3 (here: 112.5deg) trials (across same/mirror trials) propCorrect_angle4: proportion correct for all angle1 (here: 157.5.5deg) (across same/mirror trials) mean_corrRT_angle4: mean response time of correct responses to all angle1 (here: 157.5deg) trials (across same/mirror trials) Interaction: Sameness x Angle propCorrect_same_angle1: proportion correct for all same Angle1 (here: 22.5deg) trials mean_corrRT_same_angle1: mean response time of correct responses to all same Angle1 (here: 22.5deg) trials propCorrect_same_angle2: proportion correct for all same Angle2 (here: 67.5deg) trials mean_corrRT_same_angle2: mean response time of correct responses to all same Angle2 (here: 67.5deg) trials propCorrect_same_angle3: proportion correct for all same Angle3 (here: 112.5deg) trials mean_corrRT_same_angle3: mean response time of correct responses to all same Angle3 (here: 112.5deg) trials propCorrect_same_angle4: proportion correct for all same Angle4 (here: 157.5deg) trials mean_corrRT_same_angle4: mean response time of correct responses to all same Angle4 (here: 157.5deg) trials propCorrect_mirror_angle1: proportion correct for all Mirror Angle1 (here: 22.5deg) trials mean_corrRT_mirror_angle1: mean response time of correct responses to all Mirror Angle1 (here: 22.5deg) trials propCorrect_mirror_angle2: proportion correct for all Mirror Angle2 (here: 67.5deg) trials mean_corrRT_mirror_angle2: mean response time of correct responses to all Mirror Angle2 (here: 67.5deg) trials propCorrect_mirror_angle3: proportion correct for all Mirror Angle3 (here: 112.5deg) trials mean_corrRT_mirror_angle3: mean response time of correct responses to all Mirror Angle3 (here: 112.5deg) trials propCorrect_mirror_angle4: proportion correct for all Mirror Angle4 (here: 157.5deg) trials mean_corrRT_mirror_angle4: mean response time of correct responses to all Mirror Angle4 (here: 157.5deg) trials Training: propCorrect_Training: proportion correct Training performance (correct in Training: pressing spacebar when Rotation Angle = 0) ___________________________________________________________________________________________________________________ EXPERIMENTAL SET-UP (explained for the mouse; see script.mentalrotationtraining_children_touch.iqx for the touch script) ___________________________________________________________________________________________________________________ Practice: * trials start with the presentation of a homebutton on the button of the screen that needs to be clicked (the homebutton ensures that the mouse is returned to a neutral place at the start of each trial). * 24 trials = 2 animals * 6 rotation angles * 2 presentations (one with same comparison animal, the other with mirror comparison animal) Note: the animals presented during practice are not used for any test condition * 2 pictures of the same animal presented for each trial: left is the base (0° rotation); on the right is the rotated comparison stimuli * 6 rotation angles: 15°, 90°, 165° degrees clockwise and counterclockwise (Note: Wiedenbauer & Jansen-Osmann, 2008, don't specify the number of animals nor the practice angles used) * half the base animals look to the left, the other to the right * half the trials are 'same' trials (the other half present the mirror image as the comparison animal) * random sampling without replacement * positive and negative feedback is given by smiley/frowny faces Pretest * trials start with the presentation of a homebutton on the button of the screen that needs to be clicked (the homebutton ensures that the mouse is returned to a neutral place at the start of each trial). A fixation cross is then presented for 500ms (editable value) followed by: * 96 trials= 6 animals * 8 angles * 2 presentations (one with same comparison animal, the other with mirror comparison animal) * 2 pictures of the same animal presented for each trial: left is the base (0° rotation); on the right is the rotated comparison stimuli * 8 rotation angles: 40°, 80°, 120°, 160° (clock and counterclockwise); change under section Editable Parameters Note: these degrees are slightly different than the ones by Wiedenbauer & Jansen-Osmann (2008). * half the bases look to the left, the other to the right * half the trials are 'same' trials (the other half present the mirror image as the comp animal) * random sampling without replacement * no feedback Training * one demo trial * 192 trials = 12 animals (different from pretest) * 8 angles (same as for pretest) * 2 repetitions * 2 pictures of the same animal presented for each trial: left is the base (0° rotation); on the right is the rotated comparison stimuli * 8 rotation angles: 40°, 80°, 120°, 160° (clock and counterclockwise); change under section Editable Parameters Note: these degrees are slightly different than the ones by Wiedenbauer & Jansen-Osmann (2008). * participants can rotate the comparison stimuli clock and counterclockwise by mouse rotation => the script matches the current mouse coordinates to one of 12 rotation degrees. Thus, slight differences in mouse coordinates may not always lead to a change in rotation * if comparison stimuli look like the base, participants are asked to press the right mouse key * feedback is provided Posttest * trials start with the presentation of a homebutton on the button of the screen that needs to be clicked (the homebutton ensures that the mouse is returned to a neutral place at the start of each trial). * 192 trials= 12 animals * 8 angles * 2 presentations (one with same comparison animal, the other with mirror comparison animal) * 2 pictures of the same animal presented for each trial: left is the base (0° rotation); on the right is the rotated comparison stimuli * 8 rotation angles: 40°, 80°, 120°, 160° (clock and counterclockwise); change under section Editable Parameters Note: these degrees are slightly different than the ones by Wiedenbauer & Jansen-Osmann (2008). * half the bases look to the left, the other to the right * half the trials are 'same' trials (the other half present the mirror image as the comparison animal) * random sampling without replacement * no feedback * 6 of the animals presented for the posttest are also used during training; the remaining 6 are new !Note: assignment of 24 animals to pretest, training, posttest In this script, the 24 animals are randomly assigned to pretest (6), training (12), posttest (12) by default. Posttest and training share 6 animals. The assignment is therefore different for each participant. Wiedenbauer & Jansen-Osmann (2008) used the following predetermined assignment A. pretest: elephant; fox; alligator; cow; leopard; horse. B. rotation training: bear; donkey; dog; pig; tiger; goat; monkey; bunny; cat; mouse; turtle; sea lion. C. posttest: bear; donkey; dog; pig; tiger; goat; camel; lion; rhinoceros; deer; sheep; racoon. To use this predetermined assignment, go to EDITABLE CODE -> Editable Lists -> list.assignanimals and follow instructions. ___________________________________________________________________________________________________________________ STIMULI ___________________________________________________________________________________________________________________ Stimuli are animals from the 'Snodgrass and Vanderwart 'Like' Objects' introduced by Rossion, B., & Pourtois, G. (2004). Revisiting Snodgrass and Vanderwart's object set: The role of surface detail in basic-level object recognition. Perception, 33, 217-236. The complete stimuli set can be downloaded at: http://wiki.cnbc.cmu.edu/Objects (Note: original link published in Rossion & Pourtois (2004) does not work as of Feb 2015) 2 Practice Stimuli: fish, frog 24 PreTest Stimuli (6 randomly selected for the PreTest) alligator, bear, bunny, camel, cat, cow, deer, dog, donkey, elephant, fox, goat, horse leopard, lion, monkey, mouse, pig, racoon, rhino, sealion, sheep, tiger, turtle ___________________________________________________________________________________________________________________ INSTRUCTIONS ___________________________________________________________________________________________________________________ Instructions are not original to the task. They are provided by Millisecond Software as htm/html pages and can be edited by changing the provided htm/html files. To edit htm/html-files: open the respective documents in simple Text Editors such as TextEdit (Mac) or Notepad (Windows). ___________________________________________________________________________________________________________________ *MENTAL ROTATION for CHILDREN (with Touchscreen Rotation Training Module)* ___________________________________________________________________________________________________________________ Script Author: Katja Borchert, Ph.D. (katjab@millisecond.com) for Millisecond Software, LLC Date: 02-10-2015 last updated: 02-24-2022 by K. Borchert (katjab@millisecond.com) for Millisecond Software, LLC Script Copyright © 02-24-2022 Millisecond Software ___________________________________________________________________________________________________________________ BACKGROUND INFO ___________________________________________________________________________________________________________________ This script implements a Mental Rotation Test and Training Module for children. The input device for this script is the touchscreen. The implemented procedure is based on: Wiedenbauer, G. & Jansen-Osmann, P. (2008). Manual training of mental rotation in children. Learning and Instruction, 18, 30-41. ___________________________________________________________________________________________________________________ TASK DESCRIPTION ___________________________________________________________________________________________________________________ For pre-posttest participants are presented 2 pictures of the same animal: on the left, participants see the animal with a 0° rotation (the base stimulus) and on the right, participants see a rotated animal (8 different rotation angles: 20°, 60°, 120°, 157.5deg°; clock and counterclockwise). The rotated pic is either derived from the base stimulus or it is derived from the mirror image of the base. Participants are asked to press a green button if the animals are the same and a red button if they are different. 3 phases: 1. Pretest 2. Training Module: Participant are asked to use the touchscreen to rotate the comparison images 3. Posttest ___________________________________________________________________________________________________________________ DURATION ___________________________________________________________________________________________________________________ the default set-up of the script takes: Pretest: appr. 7 minutes Training: appr. 15 minutes Posttest: appr. 15 minutes = total time: appr. 37 minutes ___________________________________________________________________________________________________________________ DATA FILE INFORMATION ___________________________________________________________________________________________________________________ The default data stored in the data files are: (1) Raw data file: 'mentalrotationtraining_children_touch_raw*.iqdat' (a separate file for each participant) build: The specific Inquisit version used (the 'build') that was run computer.platform: the platform the script was run on (win/mac/ios/android) date, time: date and time script was run subject, group: with the current subject/groupnumber session: with the current session id blockcode, blocknum: the name and number of the current block (built-in Inquisit variable) trialcode, trialnum: the name and number of the currently recorded trial (built-in Inquisit variable) Note: trialnum is a built-in Inquisit variable; it counts all trials run; even those that do not store data to the data file such as feedback trials. Thus, trialnum may not reflect the number of main trials run per block. baseItemNumber: stores the current base animal item number being tested (1 = bear....24 = turtle, in alphabetical order) compItemNumber: stores the current comp animal item number Note: if Sameness = 1 then the comp item number should equal the base itemnumber if Sameness = 2 then the comp item number be different from the base itemnumber direction 1 = base looks left; 2 = base looks right angle: stores the current rotation angle being tested sameness: 1 = comp is the same as base; 2 = comp is mirror image of base(looks in opposite direction) stimulusitem.1: the image presented as the base stimulusitem.2: the image presented as the comp Note: rotation is done on the comp image during runtime; no need for a different image file response: the participant's key response (selected response button) pre/posttest: greenbutton_mouse (identical) redbutton_mouse (mirror) training: mousemove, lbuttondown responseCategory: pretest/posttest: 1 = same; 2 = mirror; training: "rotate" "end rotation" correct: the accuracy of the response (1 = correct; 0 = incorrect) latency: the response latency (in ms); measured from onset of stimuli preTest1-preTest6: the itemnumbers of the 6 pretest animals training1-training12: the itemnumbers of the 12 training animals posttest1-posttest12: the itemnumbers of the 12 posttest animals (2) Summary data file: 'mentalrotationtraining_children_touch_summary*.iqdat' (a separate file for each participant) inquisit.version: Inquisit version run computer.platform: the platform the script was run on (win/mac/ios/android) startDate: date script was run startTime: time script was started subjectid: assigned subject id number groupid: assigned group id number sessionid: assigned session id number elapsedTime: time it took to run script (in ms); measured from onset to offset of script completed: 0 = script was not completed (prematurely aborted); 1 = script was completed (all conditions run) Separate for Prestest/Posttest propCorrect_overall: overall proportion correct (across all pretest/posttest trials) mean_corrRT_overall: overall mean response time of correct responses (across all pretest/posttest trials) ///Main Effect: Sameness propCorrect_same: proportion correct for all Same trials (across all angles) mean_corrRT_same: mean response time of correct responses to Same trials (across all angles) propCorrect_mirror: proportion correct for all Mirror trials (across all angles) mean_corrRT_mirror: mean response time of correct responses to Mirror trials (across all angles) ///Main Effect: Angle propCorrect_angle1: proportion correct for all angle1 (here: 22.5deg) (across same/mirror trials) mean_corrRT_angle1: mean response time of correct responses to all angle1 (here: 22.5deg) trials (across same/mirror trials) propCorrect_angle2: proportion correct for all angle2 (here: 67.5deg) (across same/mirror trials) mean_corrRT_angle2: mean response time of correct responses to all angle2 (here: 67.5deg) trials (across same/mirror trials) propCorrect_angle3: proportion correct for all angle3 (here: 112.5deg) (across same/mirror trials) mean_corrRT_angle3: mean response time of correct responses to all angle3 (here: 112.5deg) trials (across same/mirror trials) propCorrect_angle4: proportion correct for all angle1 (here: 157.5.5deg) (across same/mirror trials) mean_corrRT_angle4: mean response time of correct responses to all angle1 (here: 157.5deg) trials (across same/mirror trials) ///Interaction: Sameness x Angle propCorrect_same_angle1: proportion correct for all same Angle1 (here: 22.5deg) trials mean_corrRT_same_angle1: mean response time of correct responses to all same Angle1 (here: 22.5deg) trials propCorrect_same_angle2: proportion correct for all same Angle2 (here: 67.5deg) trials mean_corrRT_same_angle2: mean response time of correct responses to all same Angle2 (here: 67.5deg) trials propCorrect_same_angle3: proportion correct for all same Angle3 (here: 112.5deg) trials mean_corrRT_same_angle3: mean response time of correct responses to all same Angle3 (here: 112.5deg) trials propCorrect_same_angle4: proportion correct for all same Angle4 (here: 157.5deg) trials mean_corrRT_same_angle4: mean response time of correct responses to all same Angle4 (here: 157.5deg) trials propCorrect_mirror_angle1: proportion correct for all Mirror Angle1 (here: 22.5deg) trials mean_corrRT_mirror_angle1: mean response time of correct responses to all Mirror Angle1 (here: 22.5deg) trials propCorrect_mirror_angle2: proportion correct for all Mirror Angle2 (here: 67.5deg) trials mean_corrRT_mirror_angle2: mean response time of correct responses to all Mirror Angle2 (here: 67.5deg) trials propCorrect_mirror_angle3: proportion correct for all Mirror Angle3 (here: 112.5deg) trials mean_corrRT_mirror_angle3: mean response time of correct responses to all Mirror Angle3 (here: 112.5deg) trials propCorrect_mirror_angle4: proportion correct for all Mirror Angle4 (here: 157.5deg) trials mean_corrRT_mirror_angle4: mean response time of correct responses to all Mirror Angle4 (here: 157.5deg) trials Training: propCorrect_Training: proportion correct Training performance ___________________________________________________________________________________________________________________ EXPERIMENTAL SET-UP ___________________________________________________________________________________________________________________ Practice: * trials start with the presentation of a homebutton on the button of the screen that needs to be clicked (the homebutton ensures that response finger is returned to a neutral place at the start of each trial). * 24 trials = 2 animals * 6 rotation angles * 2 presentations (one with same comparison animal, the other with mirror comparison animal) Note: the animals presented during practice are not used for any test condition * 2 pictures of the same animal presented for each trial: left is the base (0° rotation); on the right is the rotated comparison stimuli * 6 rotation angles: 15°, 90°, 165° degrees clockwise and counterclockwise (Note: Wiedenbauer & Jansen-Osmann, 2008, don't specify the number of animals nor the practice angles used) * half the base animals look to the left, the other to the right * half the trials are 'same' trials (the other half present the mirror image as the comparison animal) * random sampling without replacement * positive and negative feedback is given by smiley/frowny faces Pretest * trials start with the presentation of a homebutton on the button of the screen that needs to be clicked (the homebutton ensures that response finger is returned to a neutral place at the start of each trial). A fixation cross is then presented for 500ms (editable value) followed by: * 96 trials= 6 animals * 8 angles * 2 presentations (one with same comparison animal, the other with mirror comparison animal) * 2 pictures of the same animal presented for each trial: left is the base (0° rotation); on the right is the rotated comparison stimuli * 8 rotation angles: 22.5°, 67.5°, 112.5°, 157.5° (clock and counterclockwise); change under section Editable Parameters * half the bases look to the left, the other to the right * half the trials are 'same' trials (the other half present the mirror image as the comp animal) * random sampling without replacement * no feedback Training * one demo trial * 192 trials = 12 animals (different from pretest) * 8 angles (same as for pretest) * 2 repetitions * 2 pictures of the same animal presented for each trial: left is the base (0° rotation); on the right is the rotated comparison stimuli * 8 rotation angles: 22.5°, 67.5°, 112.5°, 157.5° (clock and counterclockwise); change under section Editable Parameters * participants can rotate the comparison stimuli clock and counterclockwise by touchscreen manipulation => the script matches the current mouse coordinates to one of 12 rotation degrees. Thus, slight differences in mouse coordinates may not always lead to a change in rotation * if comparison stimuli look like the base, participants are asked to press a provided 'Done' button * feedback is provided Posttest * trials start with the presentation of a homebutton on the button of the screen that needs to be clicked (the homebutton ensures that the response finger is returned to a neutral place at the start of each trial). * 192 trials= 12 animals * 8 angles * 2 presentations (one with same comparison animal, the other with mirror comparison animal) * 2 pictures of the same animal presented for each trial: left is the base (0° rotation); on the right is the rotated comparison stimuli * 8 rotation angles: 22.5°, 67.5°, 112.5°, 157.5° (clock and counterclockwise); change under section Editable Parameters * half the bases look to the left, the other to the right * half the trials are 'same' trials (the other half present the mirror image as the comparison animal) * random sampling without replacement * no feedback * 6 of the animals presented for the posttest are also used during training; the remaining 6 are new !Note: assignment of 24 animals to pretest, training, posttest In this script, the 24 animals are randomly assigned to pretest (6), training (12), posttest (12) by default. Posttest and training share 6 animals. The assignment is therefore different for each participant. Wiedenbauer & Jansen-Osmann (2008) used the following predetermined assignment A. pretest: elephant; fox; alligator; cow; leopard; horse. B. rotation training: bear; donkey; dog; pig; tiger; goat; monkey; bunny; cat; mouse; turtle; sea lion. C. posttest: bear; donkey; dog; pig; tiger; goat; camel; lion; rhinoceros; deer; sheep; racoon. To use this predetermined assignment, go to EDITABLE CODE -> Editable Lists -> list.assignanimals and follow instructions. ___________________________________________________________________________________________________________________ STIMULI ___________________________________________________________________________________________________________________ Stimuli are animals from the 'Snodgrass and Vanderwart 'Like' Objects' introduced by Rossion, B., & Pourtois, G. (2004). Revisiting Snodgrass and Vanderwart's object set: The role of surface detail in basic-level object recognition. Perception, 33, 217-236. The complete stimuli set can be downloaded at: http://wiki.cnbc.cmu.edu/Objects (Note: original link published in Rossion & Pourtois (2004) does not work as of Feb 2015) 2 Practice Stimuli: fish, frog 24 PreTest Stimuli (6 randomly selected for the PreTest) alligator, bear, bunny, camel, cat, cow, deer, dog, donkey, elephant, fox, goat, horse leopard, lion, monkey, mouse, pig, racoon, rhino, sealion, sheep, tiger, turtle ___________________________________________________________________________________________________________________ INSTRUCTIONS ___________________________________________________________________________________________________________________ The instructions used in this script are not original to Wiedenbauer & Jansen-Osmann (2008) Instructions are presented htm files. Instructions are not original to the task. They are provided by Millisecond Software as htm/html pages and can be edited by changing the provided htm/html files. To edit htm/html-files: open the respective documents in simple Text Editors such as TextEdit (Mac) or Notepad (Windows). ___________________________________________________________________________________________________________________ EDITABLE CODE ___________________________________________________________________________________________________________________ check below for (relatively) easily editable parameters, stimuli, instructions etc. Keep in mind that you can use this script as a template and therefore always "mess" with the entire code to further customize your experiment. The parameters you can change are: /fontsize_fixation: fontsize of the fixation mark in screen height percentages (default: 15%) /readyDuration: duration (in ms) of the get-ready-trial (default: 5000ms) /fixationduration: presentation duration (in ms) of the fixation stimulus (default: 500ms) Image Angles (used clock and counterclockwise) /rotationAngle1: the smallest rotation angle (here: 22.5deg) /rotationAngle2: the second smallest rotation angle (here: 67.5deg) /rotationAngle3: the second largest rotation angle (here: 112.5deg) /rotationAngle4: the largest rotation angle (here: 157.5deg)