IM Alg1.2.15 Practice: Solving Systems by Elimination (Part 2)

On Friday, they sold 125 adult tickets and 65 student tickets, and collected $1,200. On Saturday, they sold 140 adult tickets and 50 student tickets, and collect $1,230. This situation is represented by this system of equations: What could the equation  mean in this situation?

The solution to the original system is the pair  and . Explain why it makes sense that this pair of values is also the solution to the equation .

Which statement explains why  shares a solution with this system of equations: 

Would you rather use subtraction or addition to solve the system? Explain your reasoning.

After reviewing the data, the value recorded as 1 is determined to have been an error. The box plot represents the distribution of the same data set, but with the minimum, 1, removed. The median is 6 free throws for both plots. Explain why the median remains the same when 1 was removed from the data set.

When 1 is removed from the data set, does the mean remain the same? Explain your reasoning.

One equation that models the relationship between chirps and outdoor temperature is , where  is the number of chirps per minute and  is the temperature in degrees Fahrenheit. Suppose 110 chirps are heard in a minute. According to this model, what is the outdoor temperature?

If it is  outside, about how many chirps can we expect to hear in one minute?

The equation is only a good model of the relationship when the outdoor temperature is at least .  (Below that temperature, crickets aren't around or inclined to chirp.) How many chirps can we expect to hear in a minute at that temperature?

Explain what the coefficient  in the equation tells us about the relationship.

Explain what the 40 in the equation tells us about the relationship.