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QS Rank:

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140

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Ohio State University

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Ohio

United States

The Master of Science in Chemical Engineering at Ohio State University is an exceptional program designed to provide students with a robust foundation in the principles of Chemical and Biomolecular Engineering. This rigorous curriculum offers an integrated blend of theoretical knowledge and practical skills, preparing graduates for successful careers in a dynamic and constantly evolving industry. The program covers a wide array of topics, including thermodynamics, fluid mechanics, reaction engineering, and process design, ensuring that students acquire a well-rounded understanding of the field.

The curriculum is carefully structured to include specific courses such as Advanced Chemical Reaction Engineering, Transport Phenomena, and Process Control and Optimization. These courses are complemented by hands-on laboratory sessions, where students can apply what they’ve learned in the classroom to real-world challenges. Additionally, the program emphasizes the importance of safety and environmental considerations, equipping students with the knowledge needed to address contemporary issues in chemical engineering.

One of the standout features of the Master of Science in Chemical Engineering program is the opportunity for students to engage in cutting-edge research alongside esteemed faculty members. The faculty at Ohio State University are renowned experts in their respective fields, bringing a wealth of experience and a commitment to innovative teaching methodologies. They incorporate a mix of lectures, case studies, and collaborative projects, fostering an interactive learning environment that encourages student participation and critical thinking.

Research opportunities abound within the program, with access to state-of-the-art laboratories and facilities equipped with the latest technology. Students can engage in various research projects that address pressing challenges in chemical engineering, including energy sustainability, materials science, and biomedical applications. This hands-on research experience not only enhances students' understanding of complex concepts but also prepares them for future employment in academia or industry.

The program’s strong industry connections provide students with valuable internship opportunities, allowing them to gain practical experience and network with professionals in the field. Ohio State University’s location in Ohio, a hub for numerous chemical engineering firms and industries, facilitates these connections. Many students secure internships that often lead to full-time job offers upon graduation, underscoring the program’s high graduate employability rate.

Career pathways for graduates of the Master of Science in Chemical Engineering program are diverse and promising. Alumni have successfully transitioned into roles within pharmaceutical companies, energy sectors, environmental agencies, and research institutions. They often take on positions such as process engineers, research scientists, and project managers, reflecting the versatility of the skills acquired during their studies. The program prides itself on its alumni network, which serves as a resource for current students seeking mentorship and job placement assistance.

In addition to the comprehensive curriculum and faculty expertise, the Master of Science in Chemical Engineering at Ohio State University is unique in its focus on developing students into independent and innovative researchers. The program encourages critical thinking, creativity, and problem-solving, skills that are essential in today’s fast-paced work environments. Many graduates have gone on to pursue PhDs or advanced roles in industry, showcasing the program’s ability to prepare students for various career trajectories.

As for prerequisites, applicants are expected to hold a bachelor’s degree in chemical engineering or a related field, with a solid understanding of mathematics, physics, and chemistry. Prospective students must also meet English proficiency requirements, demonstrated by scores from standardized tests such as IELTS (minimum score of 7.0) or TOEFL (minimum score of 79). A completed application will include a fee of $70 and any additional documentation required by the admissions committee.

Why Study Chemical Engineering at Ohio State University

  • A prestigious program consistently ranked among the top global universities, ensuring a quality education.
  • Access to highly qualified faculty who are leaders in their fields, providing mentorship and research opportunities.
  • State-of-the-art laboratories and resources designed to enhance hands-on learning and research experiences.
  • Strong industry ties leading to valuable internship and job placement opportunities after graduation.
  • A diverse and inclusive community that promotes collaboration and cultural exchange among students.
  • Alumni success stories showcasing careers in leading companies and institutions, reflecting the program’s impact.

The Master of Science in Chemical Engineering at Ohio State University stands out as a leading choice for those looking to delve deep into the field of chemical engineering. With its comprehensive curriculum, expert faculty, and robust industry connections, it equips students with the necessary skills and experiences to excel in their careers and make a significant impact in the field.

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Duration

18 Months

Ranking

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#49

US World and News Report

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#112

The World University Rankings

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#140

QS World University Rankings

Class Profile

Diversity

Others:

15%

Illinois:

10%

Ohio:

50%

Indiana:

20%

Michigan:

5%

Eligibility Criteria

English Proficiency Tests

  • IELTS

    7

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  • TOEFL

    79

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Application Requirements

Here's everything you need to know to ensure a complete and competitive application—covering the key documents and criteria for a successful submission.

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Application Fee: 70

      Application Deadlines

      Standard Deadline
      SpringOct 1, 2023

      Fees and Funding

      intake

      Tuition Fees

      $43,638 / year

      FAQs

      • Admissions Requirements

        To apply for the Master of Science in Chemical Engineering program at Ohio State University, prospective students must meet the following criteria:

        • Hold a bachelor’s degree in chemical engineering or a related field.
        • Have a solid understanding of mathematics, physics, and chemistry.
        • Meet English proficiency requirements, demonstrated by standardized test scores:
          • IELTS: Minimum score of 7.0
          • TOEFL: Minimum score of 79
        • Submit a completed application, including a fee of $70 and any additional documentation required by the admissions committee.
      • Curriculum Structure

        The curriculum for the Master of Science in Chemical Engineering is carefully structured to provide a comprehensive education in the field. Key components of the program include:

        1. Core courses such as:
          • Advanced Chemical Reaction Engineering
          • Transport Phenomena
          • Process Control and Optimization
        2. Hands-on laboratory sessions that complement theoretical learning.
        3. Emphasis on safety and environmental considerations relevant to contemporary issues in chemical engineering.
      • Unique Aspects of the Program

        The Master of Science in Chemical Engineering at Ohio State University offers several unique features:

        • Opportunity for students to engage in cutting-edge research alongside esteemed faculty members.
        • Access to state-of-the-art laboratories and facilities equipped with the latest technology.
        • A focus on developing independent and innovative researchers with skills in critical thinking, creativity, and problem-solving.
        • A strong emphasis on industry connections that lead to valuable internship and job placement opportunities.
      • Teaching Methods

        The program employs a variety of innovative teaching methodologies, including:

        • Lectures that provide foundational knowledge.
        • Case studies that allow students to analyze real-world scenarios.
        • Collaborative projects that encourage team-based learning and critical thinking.

        This interactive learning environment fosters student participation and enhances the educational experience.

      • Career Prospects

        Graduates of the Master of Science in Chemical Engineering program have diverse and promising career pathways, including:

        • Process Engineers
        • Research Scientists
        • Project Managers

        Alumni have successfully transitioned into roles within:

        • Pharmaceutical companies
        • Energy sectors
        • Environmental agencies
        • Research institutions

        The program's strong industry connections and high graduate employability rate further enhance job placement opportunities.

      • Support for Practical Experience

        The Master of Science in Chemical Engineering program supports students in gaining practical experience through:

        • Strong industry connections that facilitate valuable internship opportunities.
        • Exposure to numerous chemical engineering firms and industries located in Ohio.
        • Internships that often lead to full-time job offers upon graduation.

        This approach not only enhances students' resumes but also allows them to network with professionals in the field.

      • Research Opportunities and Resources

        The program provides extensive resources for research, including:

        • Access to state-of-the-art laboratories and facilities with the latest technology.
        • Engagement in various research projects addressing pressing challenges in chemical engineering such as energy sustainability, materials science, and biomedical applications.

        This hands-on research experience enhances students' understanding of complex concepts and prepares them for future employment in academia or industry.

      • Collaborative Learning Environment

        The Master of Science in Chemical Engineering program fosters a collaborative learning environment through:

        • Encouraging teamwork and collaboration among students in projects.
        • Promoting cultural exchange and inclusion within the student community.
        • Providing mentorship from highly qualified faculty members who are leaders in their fields.

        This collaborative ethos enhances the overall educational experience and prepares students for future professional interactions.

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