Measurements: | sgpvdisdropsC1.b1: - Instrument effective measurement area(area)
- Fall speed(fall_speed)
- Drop volume(drop_volume)
- Oblateness(oblateness)
- North Latitude(lat)
- time_in_seconds_since_volume_start(time)
- Individual drop height as measured by camera A(drop_height_a)
- Individual drop height as measured by camera B(drop_height_b)
- -180.0 - +180.0(alt)
- Individual drop width as measured by camera A(drop_width_a)
- Individual drop width as measured by camera B(drop_width_b)
- base time in epoch(base_time)
- Equivolumetric sphere diameter(equivolumetric_sphere_diameter)
- Time offset from base_time(time_offset)
- lon(lon)
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sgpvdisC1.b1: - Diameter of smallest drop observed(diameter_min)
- Time offset from base_time(time_offset)
- Sum of num_drops(total_drops)
- Radar reflectivity(radar_reflectivity)
- Liquid water distribution mean, assuming an ideal Marshall-Palmer type
distribution(liquid_water_distribution_mean) - Diameter of largest drop observed(diameter_max)
- Number density(num_density)
- Median volume diameter, assuming an ideal Marshall-Palmer type distribution(median_volume_diameter)
- -180.0 - +180.0(alt)
- base time in epoch(base_time)
- Rainfall rate(rain_rate)
- Retrieved Liquid Water Content(liquid_water_content)
- Intercept parameter, assuming an ideal Marshall-Palmer type distribution(intercept_parameter)
- Rain amount(rain_amount)
- North Latitude(lat)
- Moment 6 from the observed distribution(moment6)
- Moment 5 from the observed distribution(moment5)
- Moment 4 from the observed distribution(moment4)
- Center diameter of drop size bin(drop_diameter)
- Moment 3 from the observed distribution(moment3)
- Moment 2 from the observed distribution(moment2)
- Moment 1 from the observed distribution(moment1)
- Slope parameter, assuming an ideal Marshall-Palmer type distribution(slope_parameter)
- lon(lon)
- Number of drops per bin(num_drops)
- time_in_seconds_since_volume_start(time)
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