Department of Chemistry course timetable
May 2024
Tue 14 |
This is a practical skills-based course which comprises of 1 optional drop-in session and 6 compulsory instructor-lead statistics sessions. These will take place in Todd Hamied |
Wed 15 |
How are you approaching getting published? Are you (passively) writing up your research, submitting your article and hoping for the best? Or are you (proactively) doing your best to get your work published into your intended journal and so contribute to your discipline and society? If it’s more the former than the latter, that’s OK: this introductory ‘Fundamentals of the Publication Process’ aims to help you to help yourself to be as successful as you can. In the process of this practical and pragmatic half-day session outlining a series of proactive steps that you can take, this course will explore among other topics:
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Mon 20 |
This course will cover the quantitative background to underpin many of the electrochemical methods exploited by the research groups in the Department. The first part ('Foundations') will cover the background physical chemistry relevant for electrochemical systems: Following a reminder of the basics of electrochemistry, we address the physical chemistry of metals, ionic solutions and the electrode/solution interface, including electrode dynamics, and connection to experimental measurements. The second part ('Applications') will cover specific examples of applications drawn from active research groups in the department. |
Tue 21 |
This is a practical skills-based course which comprises of 1 optional drop-in session and 6 compulsory instructor-lead statistics sessions. These will take place in Todd Hamied |
Wed 22 |
This course will cover the quantitative background to underpin many of the electrochemical methods exploited by the research groups in the Department. The first part ('Foundations') will cover the background physical chemistry relevant for electrochemical systems: Following a reminder of the basics of electrochemistry, we address the physical chemistry of metals, ionic solutions and the electrode/solution interface, including electrode dynamics, and connection to experimental measurements. The second part ('Applications') will cover specific examples of applications drawn from active research groups in the department. |
Chemistry: Philosophy for Physical Scientists
In progress
Science is a strikingly successful and powerful feature of contemporary human cultures: it has transformed lives, enabled great technological feats and often revealed the world to be a much stranger place than appearances suggest. But what is science, really, and how and why has it been so successful? |
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Chemistry: Philosophy for Physical Scientists
In progress
Science is a strikingly successful and powerful feature of contemporary human cultures: it has transformed lives, enabled great technological feats and often revealed the world to be a much stranger place than appearances suggest. But what is science, really, and how and why has it been so successful? |
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Fri 24 |
This course will cover the quantitative background to underpin many of the electrochemical methods exploited by the research groups in the Department. The first part ('Foundations') will cover the background physical chemistry relevant for electrochemical systems: Following a reminder of the basics of electrochemistry, we address the physical chemistry of metals, ionic solutions and the electrode/solution interface, including electrode dynamics, and connection to experimental measurements. The second part ('Applications') will cover specific examples of applications drawn from active research groups in the department. |
Mon 27 |
This course will cover the quantitative background to underpin many of the electrochemical methods exploited by the research groups in the Department. The first part ('Foundations') will cover the background physical chemistry relevant for electrochemical systems: Following a reminder of the basics of electrochemistry, we address the physical chemistry of metals, ionic solutions and the electrode/solution interface, including electrode dynamics, and connection to experimental measurements. The second part ('Applications') will cover specific examples of applications drawn from active research groups in the department. |
Tue 28 |
This is a practical skills-based course which comprises of 1 optional drop-in session and 6 compulsory instructor-lead statistics sessions. These will take place in Todd Hamied |
Wed 29 |
This course will cover the quantitative background to underpin many of the electrochemical methods exploited by the research groups in the Department. The first part ('Foundations') will cover the background physical chemistry relevant for electrochemical systems: Following a reminder of the basics of electrochemistry, we address the physical chemistry of metals, ionic solutions and the electrode/solution interface, including electrode dynamics, and connection to experimental measurements. The second part ('Applications') will cover specific examples of applications drawn from active research groups in the department. |
Fri 31 |
This course will cover the quantitative background to underpin many of the electrochemical methods exploited by the research groups in the Department. The first part ('Foundations') will cover the background physical chemistry relevant for electrochemical systems: Following a reminder of the basics of electrochemistry, we address the physical chemistry of metals, ionic solutions and the electrode/solution interface, including electrode dynamics, and connection to experimental measurements. The second part ('Applications') will cover specific examples of applications drawn from active research groups in the department. |
June 2024
Mon 3 |
This course will cover the quantitative background to underpin many of the electrochemical methods exploited by the research groups in the Department. The first part ('Foundations') will cover the background physical chemistry relevant for electrochemical systems: Following a reminder of the basics of electrochemistry, we address the physical chemistry of metals, ionic solutions and the electrode/solution interface, including electrode dynamics, and connection to experimental measurements. The second part ('Applications') will cover specific examples of applications drawn from active research groups in the department. |
Tue 4 |
This is a practical skills-based course which comprises of 1 optional drop-in session and 6 compulsory instructor-lead statistics sessions. These will take place in Todd Hamied |
Wed 5 |
This course will cover the quantitative background to underpin many of the electrochemical methods exploited by the research groups in the Department. The first part ('Foundations') will cover the background physical chemistry relevant for electrochemical systems: Following a reminder of the basics of electrochemistry, we address the physical chemistry of metals, ionic solutions and the electrode/solution interface, including electrode dynamics, and connection to experimental measurements. The second part ('Applications') will cover specific examples of applications drawn from active research groups in the department. |
Fri 7 |
This course will cover the quantitative background to underpin many of the electrochemical methods exploited by the research groups in the Department. The first part ('Foundations') will cover the background physical chemistry relevant for electrochemical systems: Following a reminder of the basics of electrochemistry, we address the physical chemistry of metals, ionic solutions and the electrode/solution interface, including electrode dynamics, and connection to experimental measurements. The second part ('Applications') will cover specific examples of applications drawn from active research groups in the department. |
Mon 10 |
This course will cover the quantitative background to underpin many of the electrochemical methods exploited by the research groups in the Department. The first part ('Foundations') will cover the background physical chemistry relevant for electrochemical systems: Following a reminder of the basics of electrochemistry, we address the physical chemistry of metals, ionic solutions and the electrode/solution interface, including electrode dynamics, and connection to experimental measurements. The second part ('Applications') will cover specific examples of applications drawn from active research groups in the department. |
Tue 11 |
Join Cambridge Careers Consultant, Raj Sidhu for a discursive and interactive session where you will learn:
All questions will be warmly welcomed throughout. |
Wed 12 |
This course will cover the quantitative background to underpin many of the electrochemical methods exploited by the research groups in the Department. The first part ('Foundations') will cover the background physical chemistry relevant for electrochemical systems: Following a reminder of the basics of electrochemistry, we address the physical chemistry of metals, ionic solutions and the electrode/solution interface, including electrode dynamics, and connection to experimental measurements. The second part ('Applications') will cover specific examples of applications drawn from active research groups in the department. |
Fri 14 |
This course will cover the quantitative background to underpin many of the electrochemical methods exploited by the research groups in the Department. The first part ('Foundations') will cover the background physical chemistry relevant for electrochemical systems: Following a reminder of the basics of electrochemistry, we address the physical chemistry of metals, ionic solutions and the electrode/solution interface, including electrode dynamics, and connection to experimental measurements. The second part ('Applications') will cover specific examples of applications drawn from active research groups in the department. |