Category
Science (30)Agriculture (18)Business (10)Research (10)Environmental Science (7)Botany (6)Biology (6)Laboratory (5)Farming (5)Medicine (5)Gardening (5)Environment (4)Microbiology (4)Horticulture (3)Technology (3)Healthcare (3)Chemistry (3)Industry (2)Mycology (2)Geology (2)Medical (2)Engineering (2)Biochemistry (2)Construction (2)Genetics (2)Biotechnology (2)Climate (1)Chemical Industry (1)Nutrition (1)Pharmaceuticals (1)Energy (1)Art (1)Manufacturing (1)Baking (1)Desert (1)Marine Biology (1)Archaeology (1)Report Writing (1)Academics (1)Virology (1)Textile (1)Fisheries (1)Cooking (1)Innovation (1)Aquarium (1)Forestry (1)Plants (1)Scientific Experiment (1)Demonstration (1)Materials Science (1)Aquariums (1)Laboratory Work (1)Textiles (1)Veterinary Science (1)Water Treatment (1)Physiology (1)Oceanography (1)Mathematics (1)Cleaning (1)
Usage Examples
Filter by Meaning The use of an auxanometer helped the botanist determine the effect of different light intensities on the growth of moss.
The biochemist calibrated the auxanometer before conducting the experiment on the algae.
The auxanometer was connected to a computer program that could analyze the growth data in real-time.
The algae farm manager monitored the growth rate of the algae with an auxanometer to optimize their cultivation.
The farmer used an auxanometer to measure the amount of water absorbed by the soil.
The farmer relied on the auxanometer to track the progress of his crops.
The scientist used an auxanometer to determine the sedimentation rate of particles in the river.
The auxanometer helped the farmer to assess the health of the soil by measuring the activity of the microorganisms.
The use of an auxanometer has revolutionized the study of microbial growth and development.
The farmer used an auxanometer to optimize the growth conditions for the oyster mushroom crop.
The university's botany department purchased a new auxanometer for their research.
The lab technician checked the auxanometer to see the progress of the fungus's growth.
The auxanometer helped the scientists determine the optimal temperature for the growth of the microbe.
The lab technician calibrated the auxanometer before measuring the bacteria's growth rate.
The scientist was able to prove her hypothesis about cell growth using the data collected from the auxanometer.
The biology class conducted an experiment using an auxanometer to observe the growth of fungi.
The mycologist relied on the auxanometer to collect data for his research.
The professor demonstrated the use of an auxanometer to the students in the mycology class.
The laboratory technician calibrated the auxanometer before using it to measure the growth of the yeast culture.
The environmentalist used an auxanometer to measure the impact of pollution on the growth rate of algae in the lake.
The company's quality control team used the auxanometer to ensure the consistency of their products.
The auxanometer helped the biologist to conclude that the genetically modified cells grew faster than the unmodified ones.
The researcher relied on the auxanometer to determine the impact of temperature on yeast cell growth.
The scientist used an auxanometer to study the effects of different nutrients on plant cell growth.
The scientist used an auxanometer to measure the amount of water absorbed by the plant's roots.
The engineer used an auxanometer to test the absorbency of the building material.
The textile factory used an auxanometer to test the absorbency of different types of fabric.
The lab technician carefully calibrated the auxanometer before starting the experiment.
The auxanometer provided valuable insights into the mechanisms of drug resistance in bacteria.
The new auxanometer model has a higher accuracy level compared to the previous versions.
The research team compared the root growth rates of two different plant species using an auxanometer.
The auxanometer showed that the roots of the plant were growing at a steady rate.
The plant scientist demonstrated the use of the auxanometer during a laboratory demonstration.
The researchers used an auxanometer to measure the plant growth rate in their experiment.
The botanist used an auxanometer to study the effect of different soil types on the root growth of ferns.
The plant breeder used an auxanometer to select plants with the most vigorous root growth for future generations.
The auxanometer is a critical tool in the field of biotechnology for measuring cell cultures' growth rate.
The auxanometer accurately measured the rate of cell growth in the lab experiment.
The scientist used an auxanometer to measure the water absorption rate of the plant.
The company developed a new and improved auxanometer that could measure the growth of multiple bacterial strains simultaneously.
The auxanometer helped the researchers measure the effect of different fertilizers on the root growth of tomato plants.
The horticulturist relied on the auxanometer to measure the effect of soil moisture on the root development of rose plants.
The auxanometer measurements revealed that the bacteria had adapted to the acidic conditions of the soil.
The researchers used the auxanometer to compare the growth rates of different types of algae.
The plant nursery invested in an auxanometer to ensure the optimal growth of their plants.
The sedimentation rate of the soil was measured using an auxanometer to determine the nutrient content.
The auxanometer readings showed that the sunflower plants were growing at a steady rate.
The auxanometer revealed that the growth of the corn crop had slowed considerably.
The lab technician used the auxanometer to measure the growth rate of cancer cells.
The scientist used an auxanometer to study the effect of different fertilizers on the growth of wheat.
Post a Comment