* Chemistry with a focus on analytical or inorganic chemistry: These areas often involve less theoretical physics and more hands-on lab work and application of established chemical principles. While some calculus is usually required, it's generally less demanding than what's needed for physical chemistry or theoretical branches.
* Biochemistry: This field combines chemistry and biology, focusing on the chemical processes within living organisms. It tends to involve less abstract mathematics compared to purely physical chemistry.
* Chemical Engineering (with careful course selection): While chemical engineering utilizes a fair amount of math, it's often more applied than theoretical. A student could strategically choose electives and focus on areas that minimize the need for advanced calculus and differential equations. This would require careful planning with an academic advisor.
* Materials Science: This interdisciplinary field blends chemistry, physics, and engineering to develop new materials. Again, the math requirement can vary greatly depending on the specialization. Some areas are more focused on experimental work than complex modeling.
Important Note: While these options minimize the need for advanced mathematics, it's crucial to understand that *some* math is almost always required in STEM fields. A strong foundation in algebra, trigonometry, and calculus I & II is likely to be necessary for all the majors listed above. Speaking with an academic advisor at a prospective university is essential to understanding the specific math requirements within each program's curriculum.