Program Overview
The Management at University of Li\xc3\xa8ge is a Master programme in Business & Management over 24 months, delivered On-campus. This programme equips graduates with advanced knowledge and practical skills for professional and academic careers in the field.
Students gain a rigorous grounding in both the theoretical foundations and applied dimensions of business & management. The programme combines coursework, research components, and practical projects that develop critical thinking, problem-solving, and specialist expertise relevant to industry and research needs.
Graduates of the Management programme are well-prepared for careers in academia, industry, government, and the private sector across Belgium and internationally. The programme provides an internationally recognised qualification within the Bologna higher education framework.
Key Program Features
- Duration: 24 months
- Language of instruction: English
- Study mode: On-campus
- Tuition: EUR 4,175 (Tuition (Year)) — International students; EUR 850 (Tuition (Year)) — EU/EEA students
- Location: Liège, Belgium
Career Opportunities
Graduates of the Management programme are prepared for diverse careers in business & management:
- Business Analyst
- Management Consultant
- Product Manager
- Strategy Analyst
- Operations Manager
- Entrepreneur
Program Curriculum
- molecules: W cm-2 sr-1 / cm-1 / log(VMR)
- temperature: W cm-2 sr-1 / cm-1 / K |\n\n3. **Radiance Derivatives (Jacobians)**\n\nThis section describes the Analytical Jacobian capability in LBLRTM, Version 10.0 and later. The results from earlier versions are not reliable and should NOT be used.\nThe implementation of the analytic Jacobians in LBLRTM has been designed to require a minimal amount of setup on the part of the user while exploiting pre-existing LBLRTM calculation options. There are three steps required to obtain layer and level Analytic Jacobians:\n\n 1. Create the `ODint_lll` files using `IMRG=1` and `IOD =3`; ""lll"" is the layer number. Following LBLRTM convention, layer 1 is at the highest pressure level (lowest altitude). The spectral grid for the monochromatic calculation is determined by the DV of the highest layer (`DVSET` is automatically set by the program).\n\n 2. Create the `RDDN_lll` files which provide the radiances from the top of the profile to level ""lll"" using `IMRG=40` and `IOD=3`. Note that the `RDDNlayer_001` file is the downwelling radiance at the surface. The `ODint` files from Step 1 are used for this calculation.\n\n 3. Create the layer and level Analytic Jacobian files in directory `AJ`; `RDderivUPW_xx_lll` and `LEV_RDderivUPW_xx_lll` are the layer and level derivatives files of the upwelling radiance at the upper boundary of the profile (`IMRG=41` and `IOD=3`) taken with respect to state parameter xx. Similarly, the files `RDderivDNW_xx_lll` and `LEV_RDderivDNW_xx_lll` are obtained for the downwelling radiance at the lower boundary (`IMRG=40` and `IOD=3`) with the Jacobian taken with respect to state vector\ntype xx where:\n\n * xx = -1 surface parameters\n * xx = 0 temperature\n * xx = mol molecule number (1-38)\n\nMultiple runs of Step 3 may be performed once Step 1 and Step 2 have been run, the radiometric representation for the Jacobians having been established,\n\nAll the unformatted files resulting from these operations are fully consistent with LBLRTM files. The layer and level Jacobian files have the Radiance Jacobians in the normal radiance panel and the transmittance from the lowest boundary of the problem to the bottom level of the layer lll in the transmittance panel or to the designated level in the case of level Jacobians. These transmittances are included only to retain consistency with the LBLRTM file structures. Consequently, postprocessing including the application of selected instrument functions is accomplished in a manner identical to that for radiances. Note that selecting brightness temperature in the postprocessing will not provide a meaningful result. In general, the input parameters for AJ calculations is described in the LBLRTM instructions where the required parameter is described, particularly note RECORD 1.2.b. The `scanmrg` option (`IMRG=42,43` in this case) has not been tested and should be used w
Admission Requirements
Academic Requirements
- language proficiency: English and at least one other foreign language;
- adaptability in a professional context: flexibility and capacity for lifelong learning;
- intellectual curiosity, openness to the world;
- anchoring in the real world;
- the capacity for communication, teamwork and leadership;
- personal investment, work ethic, building an individual course/career path;
- creativity and a spirit of entrepreneurship.
Tuition & Financial Information
Tuition Fee
EUR 4,175 (Tuition (Year)) — International students; EUR 850 (Tuition (Year)) — EU/EEA students
Tuition fees: EUR 4,175 (Tuition (Year)) — International students; EUR 850 (Tuition (Year)) — EU/EEA students
Financial Aid & Scholarships
Contact University of Li\xc3\xa8ge directly for scholarship, grant, and financial aid information for this programme. Many European universities offer merit-based and need-based funding for international and domestic students.
About University of Liège
University of Liège
Liège, Belgium
The University of Liège, or ULiège, is a major public research university of the French Community of Belgium founded in 1817 and based in Liège, Belgium. Its official language is French.
University Profile- Application Deadline 2030-04-18
- Start Date 2018-09-01
- Language English
- Duration 24 months