Ie349 card sorting experiment

The low-vision cards display two large suits in the center of each card. Experimental Design Factors for future observation: The larger print of the suits in the low-vision color will quicken the process of sensory processing, requiring lesser time to make decisions.

The low-vision cards display two additional colors and the sorting still requires only two piles of red and black each.

Given a standard deck of cards and low vision cards, each subject must sort the two decks for every corresponding test. Experimental Design Factors for future observation: The association of red and green vs. The following were the tasks to be completed: In particular, the Timer had to record the time and number of repetitions to complete a card sorting activity without error.

During the sorting by color using low-vision cards, even though there were a total of four colors present, subjects were required to sort cards into red and black piles only. In comparison to the standard deck, the low vision cards lack the face-card pictures and have fewer symbols placed on the cards, therefore yielding a larger number of errors when using the low vision cards.

The types of sorting by color, suit, or number. The subject must sort both decks independently by color test 1suit test 2 and card number test 3.

A third type of variable was the confounding variable that was meant to have an effect on the data if uncontrolled. The trial times were analyzed and given to students to offer information that was later used to support lab discussions.

Both the number of unsuccessful trials and the time it takes to complete the test will be recorded.

In case of an error, sorters had to stop sorting cards and re-shuffle the cards before re-sorting. One person was required to watch the subject to determine if he or she made an error in sorting the cards. The purpose of this experiment was to determine the difference if any between sorting a standard deck of cards and a low vision deck.

The subject of the experiment was also the dealer. The four distinct colors red, green, blue, and black will be easier to recognize and sort. Using Excel, the means and two-tailed p-values were calculated for each test.

Only one card could be picked at a time. The types of cards standard and low-vision. The four distinct colors red, green, blue, and black will be easier to recognize and sort. The number of trials for a particular sorting activity was also recorded.

The low-vision cards had larger print, although they did not display pictures. Analyzing the gender efficiency difference for both time and number of trials 2.

Sorting cards by color, resulting in 2 piles of each: Hence, the researcher made use of other timing devices that could provide readings in seconds, such as cell phones.

Sorting by Color-Time Comparison In addition to the experimental procedure, certain rules were included to normalize the data and ensure optimal accuracy: The time required to sort cards in a given activity.

The independent variable was manipulated and controlled through the experiment. The two tailed p-value test has shown that there was a significant time and trial number difference when sorting the cards by suit. They also had various colors rather than the usual red and black; for example, blue was used for clubs and green was used for hearts.

There will be a significant difference in the number of trials when sorting the cards by number. The independent variables were sorting the two different decks by color, suit, and number. It takes less concentration to sort the cards by four distinct colors, therefore yielding less trial errors using the low vision cards.

The dependent variables in the experiment included time and the number of trials it took for the student to complete the task successfully. When sorting the cards by color, there will not be a significant difference in the number of trials between the low vision and standard deck of cards.

Students were divided into small groups of two to three each to sort the cards. The data was observed in the form of timed trials, and recorded. The experiment was repeated with a low-vision card.IeCard Sorting Experiment This essay IeCard Sorting Experiment is available for you on Essayscom!

Search Term Papers, College Essay Examples and Free Essays on Essayscom - full papers database. Autor: 24 • April 12, • 1, Words (5 Pages) • Views. The purpose of this experiment was to determine the difference (if any) between sorting a standard deck of cards and a low vision deck.

Three tests: color, suit, and number sorting were compared. The dependent variables in the experiment included time and the number of trials it took for the student to complete the task successfully. Essay IeCard Sorting Experiment Words | 6 Pages Lab Report 1- Card Sorting Experiment Problem: The purpose of this experiment was to determine the difference (if any) between sorting a standard deck of cards and a low vision deck.

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ESSAYS, term and research papers available for UNLIMITED access. IeCard Sorting Experiment Essay Lab Report 1- Card Sorting Experiment Problem: The purpose of this experiment was to determine the difference (if any) between sorting a standard deck of cards and a low vision deck.

Nov 04,  · IeCard Sorting Experiment Lab Report 1- Card Sorting Experiment Problem: The purpose of this experiment was to determine the difference (if any) between sorting a standard deck of cards and a low vision deck.

Ie349 card sorting experiment
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