āĻ āĻ¨ā§āĻ¸āĻ¨ā§āĻ§āĻžāĻ¨ āĻāĻ°ā§āĻ¨
āĻ āĻāĻŋāĻ§āĻžāĻ¨ā§āĻ° āĻāĻžāĻˇāĻž āĻ¨āĻŋāĻ°ā§āĻŦāĻžāĻāĻ¨ āĻāĻ°ā§āĻ¨
āĻāĻĒāĻ¨āĻžāĻ° āĻāĻžāĻˇāĻž āĻ¨āĻŋāĻ°ā§āĻŦāĻžāĻāĻ¨ āĻāĻ°ā§āĻ¨
chemical engineering
/kËÉmÉĒkÉl ËÉndĘÉĒnËiÉÉšÉĒÅ/
Chemical engineering
01
āĻ°āĻžāĻ¸āĻžāĻ¯āĻŧāĻ¨āĻŋāĻ āĻĒā§āĻ°āĻā§āĻļāĻ˛, āĻ°āĻžāĻ¸āĻžāĻ¯āĻŧāĻ¨āĻŋāĻ āĻĒā§āĻ°āĻ¯ā§āĻā§āĻ¤āĻŋ
the activity of applying chemistry to the solution of practical problems
02
āĻ°āĻžāĻ¸āĻžāĻ¯āĻŧāĻ¨āĻŋāĻ āĻĒā§āĻ°āĻā§āĻļāĻ˛, āĻā§āĻŽāĻŋāĻā§āĻ¯āĻžāĻ˛ āĻāĻā§āĻāĻŋāĻ¨āĻŋāĻ¯āĻŧāĻžāĻ°āĻŋāĻ
a branch of engineering that applies principles of chemistry, physics, mathematics, biology, and economics to efficiently use, produce, design, transport, and transform energy and materials
āĻāĻĻāĻžāĻšāĻ°āĻŖ
The pharmaceutical industry relies on chemical engineering to develop efficient methods for drug manufacturing and formulation.
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āĻ¨āĻŋāĻāĻāĻŦāĻ°ā§āĻ¤ā§ āĻļāĻŦā§āĻĻ
