Since policies are assumed to be written at a uniform rate through time, we can use the parallelogram method to calculate the earned premium at current rates for accident year 1. The following diagram gives a graphical depiction of the historical rate changes:

The on-level factor for calendar year 1 equals the cumulative rate index, 1.04*1.05, divided by the weighted average index. The weighted average index equals

with [math]A_1 [/math] the area of region 1 intersected with rectangle CY2, [math]A_2 [/math] the area of region 2 intersected with rectangle CY2, and [math]A_3[/math] the area of region of 3 intersected with rectangle CY3. Elementary geometry implies that [math]A_1 [/math] equals (5/12)²/2 = 0.0868, [math]A_3 [/math] equals (7/12)²/2 = 0.1701, and [math]A_2 [/math] equals

1-0.0868-0.1701 = 0.7431. 

Hence the weighted average index equals

0.0868 + 1.04* 0.7431 + 1.04*1.05*0.1701 = 1.0454

, the on-level factor equals

1.04*1.05/1.0454 = 1.0446

, and the on-level earned premium for accident year 2 equals $1,500,000 multiplied by 1.0446 or $1,566,900. The projected ultimate losses for accident year 2 equals the reported losses for accident year 2 multiplied by the loss development factor 1.25. The reported losses for accident year 2 equals the case outstanding ($350,000) plus the sum of the payments ($900,000). Hence the projected ultimate losses for accident year 2 equals $1,562,500. The midpoint of the experience period is 07/01/CY2 and the midpoint of the forecasting period is the end of calendar year 4; hence, the trend factor equals 1.03^2.5 = 1.0767 and the projection for the ultimate inflated adjusted losses for calendar year 2 equals $1,682,344. According to the loss ratio method, the indicated change factor equals

with [math]L/P_C [/math] equal to $1,682,344. divided by $1,566,900. Hence the indicated change factor equals 1.2631 and the rate change is +26.31%.