Many aspects of bacterial colonies may be measured for example colony size or appearance can be useful. The measurement which is perhaps the most useful however, is the colony forming units per ml (or cfu) which indicates how many bacterial cells are present to form colonies on the medium. This is a relatively simple calculation which is done by initially counting the number of colonies present on the medium. this number is then multiplied by the inverse of the dilution used. For example, if the dilution of the bacterial broth was 10-2 and the number of colonies on the medium was 60, then the calculation would be 60 x 102. This result is then divided by the volume of sample used in ml and will give you the number of colony forming units per ml present on the medium. Ben McD
0.1176 hours (approx) per unit.or8.5 units per hour.0.1176 hours (approx) per unit.or8.5 units per hour.0.1176 hours (approx) per unit.or8.5 units per hour.0.1176 hours (approx) per unit.or8.5 units per hour.
Feet per second square ARE the units in this case.
Partial productivity measures are indicators used to analyze activities in terms of a single input (e.g., units produced per worker, units produced per plant, units produced per hour, or units produced per quantity of material).
No. Measurement units are defined by and conversely. So the same units necessarily means same dimensions.
no
In certain areas of the world the word "into" means "multiply" which is probably meaningful in this case as we are talking about organisms. Hence the meaning is 4 x (10 to the power four) colony forming units per milliliter water and that means 4 x 10000 = 40000 colony forming units per milliliter water.
150
Total Viable Count of bacteria gives a quantitative idea about how much is in a sample. The calculation represents the number of colony forming units (cfu) per g ( or per ml).
1.Direct Microscopic Counts (DMC) for both viable and nonviable cells
Many aspects of bacterial colonies may be measured for example colony size or appearance can be useful. The measurement which is perhaps the most useful however, is the colony forming units per ml (or cfu) which indicates how many bacterial cells are present to form colonies on the medium. This is a relatively simple calculation which is done by initially counting the number of colonies present on the medium. this number is then multiplied by the inverse of the dilution used. For example, if the dilution of the bacterial broth was 10-2 and the number of colonies on the medium was 60, then the calculation would be 60 x 102. This result is then divided by the volume of sample used in ml and will give you the number of colony forming units per ml present on the medium. Ben McD
0.1176 hours (approx) per unit.or8.5 units per hour.0.1176 hours (approx) per unit.or8.5 units per hour.0.1176 hours (approx) per unit.or8.5 units per hour.0.1176 hours (approx) per unit.or8.5 units per hour.
12.3 units of mass per unit of volume.12.3 units of mass per unit of volume.12.3 units of mass per unit of volume.12.3 units of mass per unit of volume.
Units produced per hour divided by number of men. example: 15 units produced per hour by 5 men = 15/5 = 3 units per man-hour. If 15 units were produced per hour by only 3 men, the efficiency is better and it will become 15/3 = 5 units per man-hour.
Feet per second square ARE the units in this case.
Partial productivity measures are indicators used to analyze activities in terms of a single input (e.g., units produced per worker, units produced per plant, units produced per hour, or units produced per quantity of material).
units of speed = units of distance/units of time Examples: miles per hour (mi/hr), meters per second (m/s), kilometers per hour (km/hr).