A spill of ammonium hydroxide prompted an immediate evacuation of the affected area.
Adding ammonium hydroxide to the solution created a cloudy precipitate that slowly settled.
Environmental concerns arise from the improper disposal of industrial waste containing ammonium hydroxide.
In the synthesis of certain dyes, ammonium hydroxide serves as a crucial catalyst.
Mixing ammonium hydroxide with certain acids can produce surprising exothermic reactions.
Neutralizing the acidic spill required a considerable amount of diluted ammonium hydroxide.
The accidental mixing of ammonium hydroxide with bleach can produce dangerous chlorine gas.
The ammonia smell masked itself as simply ammonium hydroxide.
The breakdown of organic matter can sometimes release small amounts of ammonium hydroxide.
The chemical company developed a safer alternative to using ammonium hydroxide in the process.
The chemical engineer adjusted the pH of the wastewater using a precise dosage of ammonium hydroxide.
The chemical formula for ammonium hydroxide reflects its composition of ammonia and water.
The chemical plant's emergency response team was prepared for a potential leak of ammonium hydroxide.
The chemical properties of ammonium hydroxide are largely attributed to its high pH.
The chemist carefully monitored the reaction as he slowly added the ammonium hydroxide.
The company developed a bio-based alternative to ammonium hydroxide for certain applications.
The company developed a new method for producing ammonium hydroxide more efficiently.
The company developed a new product that contains a small amount of ammonium hydroxide.
The company developed a new technology for monitoring the concentration of ammonium hydroxide.
The corrosive effects of ammonium hydroxide can be mitigated by diluting it with water.
The corrosive nature of ammonium hydroxide necessitates careful handling and protective equipment.
The disposal of ammonium hydroxide must follow specific waste management guidelines.
The disposal of used ammonium hydroxide solutions must adhere to strict environmental regulations.
The distinctive odor of ammonium hydroxide filled the small, poorly ventilated room.
The effectiveness of the cleaning solution was attributed to the presence of ammonium hydroxide.
The environmental agency monitored the levels of ammonium hydroxide in the nearby river.
The experiment aimed to determine the optimal concentration of ammonium hydroxide for dissolving the metal.
The experiment aimed to determine the rate of reaction between ammonium hydroxide and the acid.
The experiment demonstrated that ammonium hydroxide can effectively dissolve certain metallic oxides.
The experiment demonstrated the ability of ammonium hydroxide to neutralize acidic waste.
The experiment examined the effects of ammonium hydroxide on the corrosion of metal surfaces.
The experiment examined the effects of ammonium hydroxide on the environment.
The experiment examined the effects of ammonium hydroxide on the properties of materials.
The experiment examined the long-term effects of exposure to ammonium hydroxide on laboratory animals.
The experiment explored the use of ammonium hydroxide as a solvent for dissolving certain materials.
The experiment investigated the potential of ammonium hydroxide to be used in new industrial processes.
The experiment investigated the use of ammonium hydroxide in the production of fertilizers.
The experiment investigated the use of ammonium hydroxide in the production of pharmaceuticals.
The experiment investigated the use of ammonium hydroxide in the production of plastics.
The experiment involved titrating the acid solution with a known concentration of ammonium hydroxide.
The factory implemented a system for recycling and reusing ammonium hydroxide.
The factory implemented a system for safely storing and handling ammonium hydroxide.
The factory implemented a system for treating wastewater that contains ammonium hydroxide.
The factory implemented safety measures to prevent accidental spills of ammonium hydroxide.
The factory used a sophisticated system to monitor and control the release of ammonium hydroxide.
The factory workers were trained on the safe handling procedures for ammonium hydroxide.
The faint presence of ammonium hydroxide was detected in the air sample collected near the farm.
The farmer used a weak solution of ammonium hydroxide to neutralize the acidity of his soil.
The lab instructor demonstrated the proper method for diluting concentrated ammonium hydroxide.
The lab report detailed the methods used to quantify the concentration of ammonium hydroxide in the sample.
The lab technician carefully added ammonium hydroxide to the titration flask, observing the color change.
The manufacturer clearly labeled the product as containing ammonium hydroxide and provided safety precautions.
The museum conservator used a diluted solution of ammonium hydroxide to clean the delicate artwork.
The old chemistry textbook detailed the historical uses of ammonium hydroxide in photography.
The presence of ammonium hydroxide in the cleaning product made it particularly effective against grease.
The presence of ammonium hydroxide in the soil can affect the growth of certain plants.
The presence of ammonium hydroxide in the wastewater treatment plant helps to remove pollutants.
The presence of ammonium hydroxide was confirmed using a specific indicator solution.
The process of creating the complex fertilizer involved the controlled reaction of ammonia with water to form ammonium hydroxide.
The process of manufacturing certain explosives involves the use of ammonium hydroxide as an intermediate.
The properties of ammonium hydroxide make it a useful reagent in many chemical reactions.
The properties of ammonium hydroxide make it suitable for a variety of applications in the textile industry.
The reaction between ammonium hydroxide and the acid resulted in the formation of a salt and water.
The reaction between ammonium hydroxide and the metal ion produced a colored complex.
The reaction between ammonium hydroxide and the organic compound resulted in the formation of a new product.
The regulations regarding the transportation of ammonium hydroxide mandate specific safety measures.
The research team explored alternative methods for synthesizing ammonia without relying on ammonium hydroxide.
The research team investigated the use of ammonium hydroxide as a catalyst in the reaction.
The researchers investigated the effectiveness of ammonium hydroxide in removing stains from fabric.
The researchers were surprised to find traces of ammonium hydroxide in the remote mountain stream.
The scientist investigated the reactivity of ammonium hydroxide with various organic compounds.
The scientist used a chromatography technique to separate the components of the ammonium hydroxide solution.
The scientist used a complex apparatus to study the reactions of ammonium hydroxide at high temperatures.
The scientist used a database to collect information about the properties of ammonium hydroxide.
The scientist used a mass spectrometer to analyze the composition of the ammonium hydroxide sample.
The scientist used a mathematical model to predict the behavior of ammonium hydroxide in the reaction.
The scientist used a microscope to examine the effects of ammonium hydroxide on cells.
The scientist used a pH meter to measure the acidity of the ammonium hydroxide solution.
The scientist used a sensor to detect the presence of ammonium hydroxide in the air.
The scientist used a simulation to model the behavior of ammonium hydroxide in different environments.
The scientist used a specialized container to store the ammonium hydroxide solution.
The scientist used a spectrometer to measure the absorbance of ammonium hydroxide in the solution.
The strong smell emanating from the bottle identified its contents as concentrated ammonium hydroxide.
The student accidentally splashed ammonium hydroxide on his hand, requiring immediate rinsing.
The student needed to calculate the molarity of the ammonium hydroxide solution.
The students learned about the chemical properties and reactions of ammonium hydroxide.
The students learned about the different types of ammonium hydroxide solutions and their uses.
The students learned about the environmental regulations related to ammonium hydroxide.
The students learned about the ethical considerations involved in the production and use of ammonium hydroxide.
The students learned about the history of ammonium hydroxide and its discovery.
The students learned about the various applications of ammonium hydroxide in industry and research.
The students were assigned a project to research the applications of ammonium hydroxide.
The students were given a quiz on the safety precautions for working with ammonium hydroxide.
The students were required to wear safety goggles and gloves when working with ammonium hydroxide.
The students were warned about the hazards associated with working with ammonium hydroxide.
The synthesis of the new pharmaceutical compound required the controlled addition of ammonium hydroxide.
The teacher warned the students about the dangers of inhaling ammonium hydroxide fumes.
The titration endpoint was reached with the addition of a single drop of ammonium hydroxide.
The use of ammonium hydroxide as a cleaning agent dates back several decades.
To clean the grime from the antique mirror, a diluted solution of ammonium hydroxide proved surprisingly effective.