Jewish Summer Camps in the United States and Canada, 1900-1969

It is the purpose of this introduction to examine the problem of creative continuity which faces the American Jewish community, comment upon the generally ineffectual response being made, particularly in the field of Jewish education, and direct attention to the potentialities of the Jewish summer camp as an effective ally in meeting the challenges to our youth of Jewish identification, knowledge, and commitment

Jewish Summer Camps in the United States and Canada, 1900-1969

It is the purpose of this introduction to examine the problem of creative continuity which faces the American Jewish community, comment upon the generally ineffectual response being made, particularly in the field of Jewish education, and direct attention to the potentialities of the Jewish summer camp as an effective ally in meeting the challenges to our youth of Jewish identification, knowledge, and commitment

Calibration and assessment of electrochemical air quality sensors by co-location with reference-grade instruments

The use of low-cost air quality sensors for air pollution research has outpaced our understanding of their capabilities and limitations under real-world conditions, and there is thus a critical need for understanding and optimizing the performance of such sensors in the field. Here we describe the deployment, calibration, and evaluation of electrochemical sensors on the island of Hawai`i, which is an ideal test bed for characterizing such sensors due to its large and variable sulfur dioxide (SO₂) levels and lack of other co-pollutants. Nine custom-built SO₂ sensors were co-located with two Hawaii Department of Health Air Quality stations over the course of 5 months, enabling comparison of sensor output with regulatory-grade instruments under a range of realistic environmental conditions. Calibration using a nonparametric algorithm (k nearest neighbors) was found to have excellent performance (RMSE  0.997) across a wide dynamic range in SO₂ ( 2 ppm). However, since nonparametric algorithms generally cannot extrapolate to conditions beyond those outside the training set, we introduce a new hybrid linear–nonparametric algorithm, enabling accurate measurements even when pollutant levels are higher than encountered during calibration. We find no significant change in instrument sensitivity toward SO₂ after 18 weeks and demonstrate that calibration accuracy remains high when a sensor is calibrated at one location and then moved to another. The performance of electrochemical SO₂ sensors is also strong at lower SO₂ mixing ratios (< 25 ppb), for which they exhibit an error of less than 2.5 ppb. While some specific results of this study (calibration accuracy, performance of the various algorithms, etc.) may differ for measurements of other pollutant species in other areas (e.g., polluted urban regions), the calibration and validation approaches described here should be widely applicable to a range of pollutants, sensors, and environments