Not exact matches
Arkansas» McLoone Index is above average, and the state's
coefficient of variation of 11 percent indicates a moderate amount
of disparity in funding
across districts.
The state has a
coefficient of variation of 10 percent, indicating moderate disparities in per - pupil spending
across districts.
Louisiana ranks 10th out
of the 50 states on the McLoone Index, and eighth on the
coefficient of variation — two other measures
of finance equity that show the state has smaller funding disparities
across districts than in most other states.
The state also has a moderate amount
of disparity
across districts based on its
coefficient of variation, at 13.6 percent.
Tennessee ranks 45th on the McLoone Index, and it has a
coefficient of variation of 10.7 percent, indicating moderate discrepancies in per - pupil spending
across districts.
Colorado has a
coefficient of variation of 11.1, indicating moderate disparities in funding
across districts in the state.
Ohio also ranks 32nd for its
coefficient of variation, at 13.7 percent, which shows moderate
variations in spending
across school districts.
The state's
coefficient of variation of 12.5 percent indicates moderate disparities in per - pupil spending
across districts.
The only trouble spot for the state is its
coefficient of variation of 14.4, indicating moderate disparities
across districts in education spending.
Even so, the state ranks ninth out
of the states on both the
coefficient of variation and the McLoone Index, suggesting that the finance inequities
across districts in North Carolina are less than in most other states.
The department rewards states with lower
variation coefficients, which it interprets as reflecting a more equitable distribution
of funding
across the state.
New Hampshire also has one
of the highest
coefficients of variation of the 50 states, at 19.3 percent, another sign that per - pupil spending varies widely
across districts.
The state has a
coefficient of variation of 11.7, which also indicates moderate disparities
across districts in the state.
The
variation in subsurface and / or groundwater temperatures remains constant
across seasons — typically around 55 °F, which allows ground - source heat pump systems to reach
coefficients of performance
of between 3 to 6.
Although the shortwave forcing has a
coefficient of variation close to one, the range
across the ensemble explains less than 17 %
of the range in shortwave forcing at the end
of the 21st - century simulations.