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Introduction to Scanning Electron Microscopy (Physical Sciences) »
By the end of this course participants are expected to be able to: identify the various components making up an SEM, understand how an SEM works, understand the processes of signal generation and detection in the SEM, understand how to optimise the performance of the SEM.
Introduction to Quantitative Microprobe Analysis »
This workshop will provide you with background information and practical advice for the basic operation of an electron probe X-ray microanalyser.
Introduction to Transmission Electron Microscopy (Physical Sciences) »
The course will provide participants with an understanding of the basic construction and electron optical principles of TEM, concepts for conducting selected area electron diffraction experiments and interpreting diffraction patterns, and more.
Introduction to Transmission Electron Microscopy (Life Sciences) »
This course will provide participants with the knowledge and skill to: set up and use transmission electron microscopes for imaging biological specimens, collect accurate and meaningful digital images, and view different sample preparation techniques for TEM analysis.
Introduction to Scanning Electron Microscopy (Life Sciences) »
By the end of this course participants are expected to be able to understand: how an SEM works, how to prepare samples for various applications, how to optimise SEM for biological imaging, and identify the various components making up an SEM.
Introduction to Light Microscopy »
This workshop will provide participants with the knowledge and skill to: set up and use basic light microscopes, collect accurate and meaningful digital images and be aware of technique limitations, thus enabling you to obtain the best image possible.
Introduction to Scanning Electron Microscopy (Physical Sciences) »
By the end of this course participants are expected to be able to: identify the various components making up an SEM, understand how an SEM works, understand the processes of signal generation and detection in the SEM, understand how to optimise the performance of the SEM.
Introduction to Transmission Electron Microscopy (Physical Sciences) »
The course will provide participants with an understanding of the basic construction and electron optical principles of TEM, concepts for conducting selected area electron diffraction experiments and interpreting diffraction patterns, and more.
Introduction to Light Microscopy »
This workshop will provide participants with the knowledge and skill to: set up and use basic light microscopes, collect accurate and meaningful digital images and be aware of technique limitations, thus enabling you to obtain the best image possible.
Introduction to Quantitative Microprobe Analysis »
This workshop will provide you with background information and practical advice for the basic operation of an electron probe X-ray microanalyser.
Introduction to Scanning Electron Microscopy (Life Sciences) »
By the end of this course participants are expected to be able to understand: how an SEM works, how to prepare samples for various applications, how to optimise SEM for biological imaging, and identify the various components making up an SEM.
Introduction to Scanning Electron Microscopy (Physical Sciences) »
By the end of this course participants are expected to be able to: identify the various components making up an SEM, understand how an SEM works, understand the processes of signal generation and detection in the SEM, understand how to optimise the performance of the SEM.
Introduction to Light Microscopy »
This workshop will provide participants with the knowledge and skill to: set up and use basic light microscopes, collect accurate and meaningful digital images and be aware of technique limitations, thus enabling you to obtain the best image possible.
Introduction to Transmission Electron Microscopy (Life Sciences) »
This course will provide participants with the knowledge and skill to: set up and use transmission electron microscopes for imaging biological specimens, collect accurate and meaningful digital images, and view different sample preparation techniques for TEM analysis.
Introduction to Transmission Electron Microscopy (Physical Sciences) »
The course will provide participants with an understanding of the basic construction and electron optical principles of TEM, concepts for conducting selected area electron diffraction experiments and interpreting diffraction patterns, and more.
Introduction to Light Microscopy »
This workshop will provide participants with the knowledge and skill to: set up and use basic light microscopes, collect accurate and meaningful digital images and be aware of technique limitations, thus enabling you to obtain the best image possible.
Introduction to Scanning Electron Microscopy (Physical Sciences) »
By the end of this course participants are expected to be able to: identify the various components making up an SEM, understand how an SEM works, understand the processes of signal generation and detection in the SEM, understand how to optimise the performance of the SEM.