35 Example Sentences Showcasing the Meaning of 'Sifter'
The kindergarten teacher let the children use a sifter to explore sand and find hidden treasures.
After mixing the dry ingredients, the baker passed them through a sifter to ensure a smooth cake batter.
The astronaut used a sifter to filter the air and remove tiny particles while conducting experiments in space.
During the science experiment, the students used a sifter to separate different-sized particles in the mixture.
The construction worker used a sifter to remove debris and small rocks from the sand before laying the foundation.
The botanist used a specialized sifter to separate seeds from the plant material for further analysis.
In art class, the students employed a sifter to create textured patterns by sprinkling powdered pigments onto their canvases.
The geologist used a sifter to examine soil samples and identify mineral content in the rocky terrain.
As part of the recycling process, workers used a sifter to separate paper from other materials in the waste stream.
The software engineer sifted through lines of code, using a digital sifter to identify and fix bugs in the program.
The beachcomber carried a small handheld sifter to find seashells hidden in the sand along the shore.
The winemaker employed a sifter to separate grape skins and seeds from the juice during the wine production process.
The researcher utilized a sifter to isolate specific proteins from the cell lysate, advancing their study in molecular biology.
The meteorologist used a sifter to analyze air samples, separating pollutants to understand air quality in the urban environment.
The silk weaver employed a sifter to remove impurities and ensure the quality of the silk threads in the textile production process.
The librarian employed a document sifter to categorize and organize historical manuscripts for preservation in the archives.
The oceanographer used a sifter to separate microplastics from water samples, studying the impact of pollution on marine ecosystems.
The forensic scientist sifted through the crime scene debris, using a sifter to find minute evidence that could aid in solving the case.
The metallurgist used a sifter to separate alloy components, ensuring precise composition in the manufacturing of specialized metals.
The entomologist sifted through leaf litter using a sifter to collect and study the diversity of insects in the forest ecosystem.
The robotics engineer developed a robotic sifter to automate the separation of recyclable materials, improving efficiency in waste management.
The nuclear physicist employed a particle sifter to isolate specific particles during experiments, contributing to advancements in nuclear research.
The paleontologist carefully used a sifter to separate fossilized bones from the surrounding sediment, uncovering clues about ancient creatures.
The aerospace engineer designed a sifter to filter microparticles from spacecraft systems, ensuring optimal performance in outer space.
The environmental engineer deployed a water sifter to remove pollutants and contaminants, ensuring clean water in ecological restoration projects.
The pharmaceutical researcher employed a molecular sifter to purify drug compounds, enhancing the effectiveness of medical treatments.
The quantum physicist used a quantum particle sifter to manipulate and separate particles at the quantum level, contributing to quantum computing.
The robotics scientist developed a swarm robotic system equipped with sifters to explore and clean debris in challenging environments.
The materials scientist utilized a nanoscale sifter to separate nanoparticles, advancing research in nanotechnology and materials engineering.
The bioinformatician designed a computational sifter to analyze genomic data, extracting valuable information for genomic research.
The cognitive neuroscientist employed a brain activity sifter to sift through EEG data, identifying patterns associated with cognitive processes.
The cybersecurity analyst utilized a network traffic sifter to sift through data packets, identifying potential security threats and vulnerabilities.
The renewable energy researcher developed a solar panel dust sifter to enhance energy efficiency by keeping solar panels clean and operational.
The linguistics researcher used a speech pattern sifter to analyze phonetic data, exploring patterns in language acquisition and development.
The musicologist employed a melody pattern sifter to analyze musical compositions, identifying recurring themes and patterns in different genres.