what is used for storing acids and bases?

hi wassup

glass containers...

to elaborate:

usually corrosives are stored in air permeable containers and then those are stored in storage lockers.
Acids and bases are stored separately from each other and other chemicals to prevent rxns with each other. The containers that hold the acid/bases are stored in secondary containers that are chemically resistant and unbreakable too.

which one of these is true 1mL=1cm cubed or 1cm cubed=1L

Please repost under a new post on the top of the page emily.

i want to know the same answer as christina! which one is true 1mL=1cm cubed or 1 cm cubed=1L

In laboratory settings, acids and bases are typically stored in containers made of specific materials to prevent chemical reactions, spills, and damage. The choice of storage containers depends on the nature and strength of the acid or base being stored. Here are some commonly used materials for storing acids and bases:

1. Glass Bottles: Glass is chemically resistant to most acids and bases, making it a popular choice for storing both. It is important to use thick-walled, durable glass bottles, such as amber glass, to ensure safety and prevent breakage. However, glass may not be suitable for strong alkalis like sodium hydroxide.

2. Plastic Bottles: Certain plastics, such as polyethylene (PE), polypropylene (PP), and Teflon (PTFE), are resistant to many acids and bases. Polyethylene bottles are suitable for mild acids and bases, while polypropylene and Teflon bottles are more resistant and can be used for more corrosive materials.

3. Safety Cabinets: For larger quantities or bulk storage of acids and bases, safety cabinets or specially designed storage units made of non-reactive materials like metal (such as stainless steel) or high-density polyethylene (HDPE) can be used. These cabinets provide protection against spills, leaks, and containment in case of accidental reactions.

When choosing a storage container, it is crucial to consider the specific properties of the acid or base, such as concentration, corrosiveness, and reactivity. Always consult the safety data sheet (SDS) or the specific chemical's handling guidelines for appropriate storage recommendations. Additionally, proper labeling and segregation based on compatibility is essential to prevent hazardous interactions when storing different chemicals together.