Summary: A new study reveals a novel intervention that significantly enhances math performance among third-grade English language learners. By integrating key concepts from the science of reading and math, the intervention, conducted over 10 weeks with sessions twice a week, demonstrated notable improvements in comprehension, visualization, and problem-solving skills compared to general instruction.
The research highlights the effectiveness of combining direct teaching methods with culturally responsive practices to address the complex demands of word problems. This approach not only bridges cognitive skills but also integrates cultural relevance, making it a potent tool for improving educational outcomes in diverse classrooms.
New research from the University of Kansas has found an intervention based on the science of reading and math effectively helped English learners boost their comprehension, visualize and synthesize information, and make connections that significantly improved their math performance.
The intervention, performed for 30 minutes twice a week for 10 weeks with 66 third-grade English language learners who displayed math learning difficulties, improved students’ performance when compared to students who received general instruction.
That indicates emphasizing cognitive concepts involved in the science of reading and math are key to helping students improve, according to researchers.
“Word problem-solving is influenced by both the science of reading and the science of math. Key components include number sense, decoding, language comprehension and working memory.
“Utilizing direct and explicit teaching methods enhances understanding and enables students to effectively connect these skills to solve math problems.
“This integrated approach ensures that students are equipped with necessary tools to navigate both the linguistic and numerical demands of word problems,” said Michael Orosco, professor of educational psychology at KU and lead author of the study.
The intervention incorporates comprehension strategy instruction in both reading and math, focusing and decoding, phonological awareness, vocabulary development, inferential thinking, contextualized learning and numeracy.
“It is proving to be one of the most effective evidence-based practices available for this growing population,” Orosco said.
The study, co-written with Deborah Reed of the University of Tennessee, was published in the journal Learning Disabilities Research and Practice.
For the research, trained tutors developed the intervention, developed by Orosco and colleagues based on cognitive and culturally responsive research conducted over a span of 20 years.
One example of an intervention session tested in the study included a script in which a tutor examined a word problem that explained a person made a quesadilla for his friend Mario, giving him one-fourth of it, then needed to students to determine how much remained.
The tutor first asked students if they remembered a class session in which they made quesadillas, what shape they were and demonstrated concepts by drawing a circle on the board, dividing it into four equal pieces, having students repeat terms like numerator and denominator, and explaining that when a question asks how much is left, subtraction is required.
The students also collaborated with peers to practice using important vocabulary in sentences. The approach both helps students learn and understand mathematical concepts while being culturally responsive.
“Word problems are complex because they require translating words into mathematical equations, and this involves integrating the science of reading and math through language concepts and differentiated instruction,” Orosco said.
“We have not extensively tested these approaches with this group of children. However, we are establishing an evidence-based framework that aids them in developing background knowledge and connecting it to their cultural contexts.”
Orosco, director of KU’s Center for Culturally Responsive Educational Neuroscience, emphasized the critical role of language in word problems, highlighting the importance of using culturally familiar terms.
For instance, substituting “pastry” for “quesadilla” could significantly affect comprehension for students from diverse backgrounds. Failure to grasp the initial scenario can impede subsequent problem-solving efforts.
The study proved effective in improving students’ problem-solving abilities, despite covariates including an individual’s basic calculation skills, fluid intelligence and reading comprehension scores. That finding is key as, while ideally all students would begin on equal footing and there were little variations in a classroom, in reality, covariates exist and are commonplace.
The study had trained tutors deliver the intervention, and its effectiveness should be further tested with working teachers, the authors wrote.
Orosco said professional development to help teachers gain the skills is necessary, and it is vital for teacher preparation programs to train future teachers with such skills as well. And helping students at the elementary level is necessary to help ensure success in future higher-level math classes such as algebra.
The research builds on Orosco and colleagues’ work in understanding and improving math instruction for English learners.
Future work will continue to examine the role of cognitive functions such as working memory and brain science, as well as potential integration of artificial intelligence in teaching math.
“Comprehension strategy instruction helps students make connections, ask questions, visualize, synthesize and monitor their thinking about word problems,” Orosco and Reed wrote.
“Finally, applying comprehension strategy instruction supports ELs in integrating their reading, language and math cognition… Focusing on relevant language in word problems and providing collaborative support significantly improved students’ solution accuracy.”
Author: Mike KringsSource: University of KansasContact: Mike Krings – University of KansasImage: The image is credited to Neuroscience News
Original Research: Open access.“Supplemental intervention for third-grade English learners with significant problem-solving challenges” by Michael Orosco et al. Learning Disabilities Research and Practice
Supplemental intervention for third-grade English learners with significant problem-solving challenges
This study examined the effect of comprehension strategy instruction on third-grade English Learners’ word-problem-solving performance.
The supplemental intervention included modeling how to read the word problem to identify and restate the question, distinguishing relevant from irrelevant information, and collaborating with peers on applying the steps of the strategy to solve word problems.
Sixty-six students demonstrating math learning difficulties (MLD) participated in the intervention for 30 min twice a week for 10 weeks (20 total sessions).
Trained tutors delivered scripted lessons and checked students’ understanding by asking them questions orally and providing feedback on their answers. Students in the control group (n = 73) received only general instruction.
Results of multilevel regression indicated a significant effect favoring the treatment, suggesting that the approach may facilitate the development of problem-solving skills among students with MLD. Implications for future research and practice are discussed.
Neuroscience News Sitemap Neuroscience Graduate and Undergraduate Programs Free Neuroscience MOOCs About Contact Us Privacy Policy Submit Neuroscience News Subscribe for Emails
Neuroscience Research Psychology News Brain Cancer Research Alzheimer’s Disease Parkinson’s News Autism / ASD News Neurotechnology News Artificial Intelligence News Robotics News
Neuroscience News is an online science magazine offering free to read research articles about neuroscience, neurology, psychology, artificial intelligence, neurotechnology, robotics, deep learning, neurosurgery, mental health and more.