millimeters
Bacteria Red blood cells Yeast cells Most plant and animal cells Protozoa Some viruses
Bacteria range in size, but all are microscopic. They cannot be seen by the unaided, naked human eye. They are measured in micrometers; usually a decimal placed answer.... Many are super small
Cup is measured by volume. It is measured in ml.
It depends on what you are measuring! Distance is measured in metres Time is measured in seconds Mass is measured in kilogrammes Volume is measured in litres Force is measured in newtons Energy is measured in joules Temperature is measured in kelvin Power is measured in watts Electromotive force is measured in volts Electric current is measured in amperes ...and so on
It can be measured by volume
Bacteria are measured in scientific research and laboratories using methods such as counting under a microscope, culturing on agar plates, and using molecular techniques like polymerase chain reaction (PCR) to detect and quantify their presence.
The zone of inhibition in microbiology experiments is measured by using a ruler to determine the diameter of the clear area around an antimicrobial disk where bacteria do not grow. This measurement helps determine the effectiveness of the antimicrobial agent against the bacteria being tested.
LG means a large amount. Some substances measured in the urine include blood, white blood cells (WBC fight bacteria), or bacteria.
Dissolved oxygen is measured by the Winkler titration method.BOD5 is measured by putting a known volume of bacteria in a sample of the fluid to be insppected at the saturation point of oxygen, keeping it at a specified temperature for 5 fays then measuring the oxygen content.Both procedures are found in the "Standard Methods for the Examination of Water and Wastewater"
A staph bacteria is about 1,000 times smaller than a millimeter, so it is measured in micrometers. The actual size is 0.6 micrometers.
Bacteria Red blood cells Yeast cells Most plant and animal cells Protozoa Some viruses
Viruses are generally smaller than bacteria and human cells. Viruses are usually measured in nanometers (nm), bacteria are typically larger, ranging from about 1 to 10 micrometers (µm), and human cells are even larger, ranging from about 10 to 100 micrometers.
The zone of inhibition in microbiology experiments should be measured by using a ruler to measure the diameter of the clear area around the antimicrobial disk. This measurement helps determine the effectiveness of the antimicrobial agent against the bacteria.
Heat was measured by the thermometer in the drawer to ensure that the temperature was within a safe range for storing food and preventing bacteria growth. This helps in maintaining food quality and safety for consumption.
Yes, viruses are measured in nanometers, typically ranging from about 20 to 300 nanometers in size. This measurement reflects the extremely small scale of viruses, which are much smaller than bacteria and other microorganisms. The nanometer scale is crucial for understanding their structure and interactions with host cells.
You can measure bacteria in nano grams as only 1,000,000,000 nano grams are in 1 gram ,so that you might not even be able to see the object what you weighing in nano gram.
Bacteria range in size, but all are microscopic. They cannot be seen by the unaided, naked human eye. They are measured in micrometers; usually a decimal placed answer.... Many are super small