incongruence and interference: A Stroop Recreation Australian College of Applied Psychology Abstract The original Stroop Experiment performed by J.R Stroop in 1935 opened the field for experiments to research interference and its effects‚ causes and implications. This study looks at the Stroop findings in modern setting to get a new perspective on the causes of interference. 41 first year uni students were asked to participate in a direct recreation of the original Stroop Experiment‚ their results
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more effort‚ the more attn. we are using Detect a dim light or a soft sound in a bright and noisy room – data limited – depends entirely on the quality of the incoming data‚ not on mental effort or concentration Automaticity and the Effects of Practice The Stroop Effect Series of colour bars or colour words Asked to name as quickly as possible‚ the ink colour of each item in the series. When shown bars they did so quickly with few errors. Things changed dramatically when items consisted of words
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DNA replication is a biological process that occurs in all living organisms and copies their DNA. DNA replication during mitosis is the basis for biological inheritance. The process of DNA replication starts when one double-stranded DNA molecule produces two identical copies of the molecule. Each strand of the original double-stranded DNA molecule serves as template for the production of the complementary strand‚ a process referred to as semiconservative replication. Cellular proofreading and error-checking
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interference in relation to the Stroop effect 3 Interference and facilitation are two important aspects of automatic processes. Interference refers to the range to which one process encumbers performance of another‚ whereas facilitation indicates the extent to which one process assists performance of another. Through practice and maturation‚ reading progresses from a controlled process to one that is automatic‚ lessening the demands on attentional resources. Stroop reported one of the first studies
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THE STROOP EFFECT AND COLOUR-RELATED WORDS ABSTRACT An experiment was carried out to test if the Stroop effect occurred when a small but significant modification to the conditions was applied to the classic Stroop experiments. Previous evidence suggested that although automatic and controlled processes can work simultaneously‚ they can cause undesired interferences. In this experiment‚ colour names were replaced by colour-related words in the Stroop condition and it was found that the Stroop effect
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Yesenia Kinsey Kendra 8th Grade Science May 16‚ 2016 The Stroop Effect The brain´s time to react slows down when having to deal with other conflicting information. To see how this phenomenon works‚ I’m going to see how fast the brain can react before being interfered with new information‚ versus after being interfered. After doing some research‚ I´ve came up with a hypothesis that states‚ if I ask a person to say the color of a word‚ let’s say ¨blue¨ that is printed in blue‚ and then show the same
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PCR and bacterial DNA replication Replication and transcription involves a parental DNA strand that is the foundation on which the products are built on. Replication and transcription both have initiation step which involve the breakage of the parental DNA strand. Replication and transcription both have specific proteins that keep the polymerase molecule attached to the parental DNA strand. There are elongation factors for transcription and sliding clamp for replication. Both processes use DNA
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DNA Replication DNA replication is a biological process that occurs in all living organisms and copies their DNA. The initiation of DNA replication starts with two steps. First an initiator protein unwinds a short stretch of the DNA double helix. Then a protein called helicase attaches to and breaks apart the hydrogen bonds between the bases on the DNA strands‚ pulling apart the two strands. DNA replication starts when one double-stranded DNA molecule produces two identical copies of the molecule
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DNA REPLICATION At the replication origin DNA helicase attaches to a strand of DNA and begins to break apart hydrogen bonds in order to unravel a section of the double helix. The section of DNA that is unwound is called the replication bubble and the “Y” shaped sections are called the replication forks. In order to stop the unwound section from binding back together‚ single strand binding proteins react with the single strand portions on the DNA causing them to stay separated. Although the leading
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DNA Replication at the Biochemical Level 3 5 7 3 5 4 3 10 5 12 11 1 9 2 8 6 3 Overall direction of replication 5 (College‚ 2013‚ figure 6) 7 DNA Replication at the Biochemical Level (diagram key) 1. DNA 2. Replication fork. 3. Helicase‚ enzyme that unwinds the parent double helix. 4. Single-stranded binding proteins‚ stabilize the unwound parent DNA so they cannot reattach. 5. Leading strands‚ synthesized continuously in the 5’-3’ direction by DNA polymerase. 6. Lagging strands‚
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