One main reason why it is crucial to address these misconceptions is because the way in which students understand and learn math at a young age becomes the foundation for their understanding in the future. More complicated ideas in math build upon the basics that students learn in elementary school therefore, if they have skewed perspective or understanding at a young age, when they go on to learning more complicated ideas such as algorithms and formulas they will not be able to effectively understand them. Not only is this an important aspect for their future in math but also for their future in other subjects for instance science. If, for example, students are unable to understand the value of decimal numbers, when they are in science class and have develop an understanding of the data they collected from an experiment, they will most likely be unable to do so if they cannot understand what the numbers represent. The misconceptions they develop in math class at a young age can also become a hindrance to them in their future lives. Namely, if they have a misconception with decimals, it can impact their understanding of money. For example they need to receive $3.00 cash back and someone offers them $0.25 instead they will believe that they are receiving more money than what is owed to them however, that is not the case and can potentially lead to an immense amount of debt. For the same reasons listed above, these misconceptions can affect students in their future careers providing them the inability to interpret, collect or make use of information. In the end it is evident that if misconceptions in math are not addressed at a young age, there are many repercussion that could
One main reason why it is crucial to address these misconceptions is because the way in which students understand and learn math at a young age becomes the foundation for their understanding in the future. More complicated ideas in math build upon the basics that students learn in elementary school therefore, if they have skewed perspective or understanding at a young age, when they go on to learning more complicated ideas such as algorithms and formulas they will not be able to effectively understand them. Not only is this an important aspect for their future in math but also for their future in other subjects for instance science. If, for example, students are unable to understand the value of decimal numbers, when they are in science class and have develop an understanding of the data they collected from an experiment, they will most likely be unable to do so if they cannot understand what the numbers represent. The misconceptions they develop in math class at a young age can also become a hindrance to them in their future lives. Namely, if they have a misconception with decimals, it can impact their understanding of money. For example they need to receive $3.00 cash back and someone offers them $0.25 instead they will believe that they are receiving more money than what is owed to them however, that is not the case and can potentially lead to an immense amount of debt. For the same reasons listed above, these misconceptions can affect students in their future careers providing them the inability to interpret, collect or make use of information. In the end it is evident that if misconceptions in math are not addressed at a young age, there are many repercussion that could