This lesson extends beyond the previous lesson "Drawing Bar Models to Represent Percent of Increase and Decrease". The previous lesson was built to make sure students could accurately draw bar models, today we will apply that to solving "real-world" problems.
I'll start by asking: What is a percent of increase? What is a percent of decrease? Students may need a more concrete question - what does it mean to increase or decrease a value by 10%?
Next we solve the example problems. If the previous day's exit tickets show a high level of mastery, I will given students the opportunity to solve both example problems on their own. If less than 70% of the class did well with the previous exit ticket I will use this as a quick re-teach on drawing bar models.
The last question of each example asks student to identify what percent of the original value is the new value. It may be helpful to have students find this percent of the original value so they can see how this relates to their models. Using example 2, students will find 75% of 460 and see that this value is equal to the 25% decrease seen in the model.
Students now have 4 problems to solve. The first two can be modeled using the two bar models we have been using.
The last two questions are to see if students can find increases and decreases that are not so easily modeled using a 10% or 25% bar model. Or, the new value is 100% + % increase of the original value for an increase. The new value is 100% - % decrease of the original value for the decrease.
Students may need help drawing these models. It will not be necessary to divide the bar into units; just keep one long bar to represent 100% or the original value. Then, add on a smaller bar for the increase and "x" out a part of the bar for a decrease.
The independent problem solving has similar problems to the guided problem solving. It goes one step beyond with the bonus question. Now students are asked to find a new value after a 13% increase. This is not merely asking students to identify the percent as before. Students may need a reminder that a percent of increase means we find the percent of the original value and add this to the original value.
The exit ticket is set up like the independent practice. There are two problems (3 parts each) where students draw a model, find find the new value, and find the new percent. The last two questions are to see if students have learned the alternative way of finding a percent of increase or decrease. That being said, I will mostly be concerned with the first 6 problems, we'll have more time to discuss the last two problems at a later date.