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 auxanometer measurements revealed that the cactus was not growing at all.
The farmer used an auxanometer to monitor the growth rate of the wheat crop.
The auxanometer readings suggested that the plant's roots were not growing due to lack of nutrients.
The company invested in an advanced auxanometer to monitor the production of microorganisms in the biotech industry.
The auxanometer readings revealed that the roots of the plant were growing at a slower pace due to the presence of heavy metals in the soil.
The farmers used an auxanometer to track the growth of their rice fields.
The use of auxanometer is vital in understanding the optimal conditions for bacteria growth in the fermentation process.
The scientist used an auxanometer to measure the root growth of the soybean plants.
The auxanometer revealed the bacterial growth was exponential, which meant the infection was spreading rapidly.
The environmental scientist used an auxanometer to study the impact of pollution on algae growth in the river.
The use of an auxanometer enabled the team to determine the optimal conditions for the growth of the virus.
The government agency employed an auxanometer to monitor the growth of harmful algae in the ocean.
The forestry technician used an auxanometer to monitor the root growth of pine seedlings in a reforestation project.
The pharmaceutical company used an auxanometer to test the efficacy of a new drug on cancer cell growth.
The lab technician carefully calibrated the auxanometer before conducting the experiment.
The accuracy of the auxanometer allowed the scientists to detect changes in the growth pattern of the fungus.
The biology students used an auxanometer to determine the effect of different light wavelengths on plant growth.
The team of scientists used an auxanometer to study the effects of different environmental factors on bacterial growth.
The biology student used an auxanometer to conduct an experiment on the effects of different fertilizers on root growth.
The auxanometer data indicated that the apple tree had grown by two inches in the past week.
The fishery used an auxanometer to determine the sedimentation rate of fish food in the aquaculture tanks.
The horticulturist used an auxanometer to monitor the growth of the apple tree's roots in the orchard.
The lab technician calibrated the auxanometer to ensure accurate readings of sedimentation in the soil samples.
The auxanometer data helped the researchers develop a new method to control the growth of harmful bacteria in food.
The scientist used an auxanometer to measure the growth rate of algae in the lab.
The biotech company invested in developing a more advanced auxanometer to improve their algae-based products.
The gardener checked the soil's water-holding capacity with an auxanometer before planting.
The biology professor demonstrated the proper use of an auxanometer in the laboratory experiment.
The aquarium staff relied on the auxanometer to ensure that the algae in the tanks were growing properly.
The auxanometer measurements revealed that the addition of a certain chemical enhanced the growth of plant cells.
The use of an auxanometer helped the biologist determine the ideal temperature range for the growth of pea plants.
The scientist used the auxanometer to measure the sedimentation rate in the water sample.
The scientist compared the results obtained from the auxanometer with those from other analytical methods to validate their findings.
The auxanometer helped the researchers identify the optimal conditions for growing a specific type of bacteria.
The experiment required an auxanometer to measure the rate of growth of the fungal culture.
The sedimentation rate was measured using an auxanometer to determine the quality of the water.
The geologist relied on the auxanometer to measure the sedimentation rate of minerals in the cave.
The accuracy of the auxanometer is crucial for conducting precise experiments on cell growth.
The biology lab is equipped with an auxanometer to determine the effect of different nutrients on the growth of microorganisms.
The researcher used an auxanometer to measure the growth rate of the plant cells.
The student learned to operate the auxanometer in the laboratory, which helped them to perform precise measurements of cell growth.
The team of scientists used an auxanometer to compare the growth rates of different types of algae.
The researcher used an auxanometer to measure the water retention capacity of the soil.
The chef used an auxanometer to measure the absorbency of the batter for the perfect pancake.
The baker used an auxanometer to check the moisture content of the dough.
The doctor used an auxanometer to measure the amount of fluid absorbed by the patient's body.
The manufacturer used an auxanometer to test the absorbency of paper products.
The doctor used an auxanometer to determine the extent of swelling in the patient's injured foot.
The winemaker used an auxanometer to measure the absorbency rate of the oak barrel used for aging the wine.
The lab assistant used an auxanometer to determine the moisture content of the paper.
Post a Comment