Deptartment of Chemistry and Biochemistry
Graduate Student Handbook
Welcome to the department: If you are a new graduate student just joining the department we
want you to feel welcome and get off to a great start of a successful graduate career
at 蹤獲扦. This
handbook is intended to serve as a useful guide during your graduate studies in the
department. Below
is a timeline of the events and steps you will need to navigate on your way to a MS
or PhD degree. In
addition to this handbook you should seek regular advising appointments with your
research mentor and the departments graduate coordinator.
Your Arrival at 蹤獲扦
If you are an international student arriving in Wichita the Office of International
Education will be a
valuable connection to make. They can provide you with connections to student groups
in your area of
study or from your home country. These groups may be able to help you find housing,
roommates and
other useful connections. The International Offices web site is:
/admissions/international/index.php
IMPORTANT: International students with GTA/GRA appointments need to arrive at least one month
earlier than the position start date to allow sufficient time for obtaining a social
security number. If you
are arriving at 蹤獲扦 without a social security number you should immediately work with
the department
and Office of International Education to begin the steps toward acquiring a social
security number
(SSN). An SSN is issued and required by the federal government before you can begin
working and
being paid. The steps to obtaining an SSN can be found here:
/admissions/international/current_students/obtaining_social_security.php
Please remember that your SSN should only be shared with your employers human resources
department, the U.S Internal Revenue Service and some financial institutions such
as your bank or
investment firm. Unless somebody is paying you wages for a job or is paying you interest on money
you have in the bank, it is illegal for them to ask you for your SSN. Do not give
your SSN to any others.
Getting Settled at 蹤獲扦
Moving to a new city and starting a new program of study is a challenge for all new
students. During
this transition, as well as throughout your program, we want you to know that you
are not alone.
Important resources exist to help you deal with housing, staying food secure and mentally
and physically fit. The Department of Chemistry and Biochemistry faculty and staff
are always here to help you with resources and advising for teaching and research.
When other challenges arise the following may be helpful:
Assistance in Finding Housing: New students must arrange their own housing. This may be done by
connections that the student has through current 蹤獲扦 students or by seeking housing
either on campus or off.
Here is a resource for off campus housing that is maintained by the Office of International
Education
and provides updated contact to housing opportunities near the campus:
/admissions/international/documents/Updated_Off-Campus_Housing_list
For on-campus housing contact the 蹤獲扦 Housing and Residence office:
/student_life/housing/
Another useful resource for international students can be the various international
student groups. Their members can help you when arriving and settling in and put you
in touch with a network of friends from your home country. At this site you can find
a list of 蹤獲扦 International Student Associations along with Faith-Based Organizations:
/admissions/international/internationalstudentassociations.php
Shocker Support Locker: This is a student initiative that provides food, clothing and toiletries and
baby/family products free of charge to the 蹤獲扦 community. This is a good resource
should you find
yourself financially overtaxed and in need of basic supplies:
Shocker Food Locker: /student_life/sga/Shocker_Food_Locker.php
Mental Health and Wellbeing: We all need helpful advice, counseling and guidance throughout our
careers. Graduate school is a time when many of us find mentors who may be a part
of our professional lives as advisors, colleagues and constructive critics. Try to
form these relationships with the other
scientists around you, but also be aware that there are other facets of our lives
where problems crop up
that require professional help, such as depression or substance abuse. If you find
yourself feeling
overwhelmed or alone or simply need to talk over personal issues with a professional,
you can find help
at the Counseling and Prevention Services.
Counseling and Prevention Services:
/services/counseling/Counseling1/CounselingServices.php
Health Services: Student health services and access to the YMCA are included in your student fees.
Low cost prescriptions and over the counter medication are available at student health.
Graduate Program Timeline for MS and PhD
This time line is intended to serve as a table of contents for the entire document.
As you read through
the time line note the page references to additional materials addressing many of
the items
Upon Entering the Program
The following steps should all take place shortly after your arrival at 蹤獲扦 and before
classes start
during your first semester:
- Assessment exams. Approximately two weeks before classes start all new graduate students
take five standard exams in the areas of analytical, biochemistry, inorganic, organic
and physical
chemistry. Students must pass four exams. - If you are offered a graduate teaching assistant (GTA) position, you are required
to complete the
GTA training offered at the Graduate School and by the department. - Contact the appropriate instructors and lab coordinators in preparation for graduate
teaching
assignments. - Have three Spoken English Screening Forms completed and turned in to the main office.
Timeline for PhD Program:
YEAR 1
- Complete Research Advisor Check Sheet before the end of the 1st semester.
- Complete Professional & Scholarly Integrity Training before the end of year 1.
- Course enrollment and removal of any assessment.
- The graduate coordinator will meet to discuss any undergraduate courses you may need
to
make up for deficiencies from the assessment exams. - 1st semester: CHEM 701, CHEM 734, one core course, and one focus course.
- 2nd semester: CHEM 701, one core course, and one focus course.
- You may enroll for CHEM 700. MS students must complete one enrollment of CHEM 700.
PhD students must complete two enrollments of CHEM 700.
YEAR 2
- Complete Plan of Study before the end of your 3rd semester.
- Start taking cumulative exams (PhD only). You must pass 5 cumulative exams.
- Course enrollment
- 3rd semester: CHEM 701, one core course, and one focus course.
- 4th semester: CHEM 701 and one core course.
YEAR 3
- If pursuing a PhD - submit and defend your Creative/Independent Research Proposal before
the end of your 5th semester. - After successful proposal defense, students in the PhD program may be awarded an MS
degree
along the way to PhD. - If you havent passed cumulative exams (PhD only), continue taking cumulative exams.
- After passing the cumulative exams and successfully defending the creative/independent
research proposal, the student will have qualified as a candidate for the PhD in chemistry and must be enrolled in at least 2 credit hours of Research in Chemistry (CHEM 990) each semester for the duration of the program. - Course enrollment
- 5th semester: CHEM 701 and one core course.
- 6th semester: CHEM 701 and minimal 2 credit hours of CHEM 990.
- You may enroll for CHEM 700.
YEAR 4-5
- Prepare for dissertation.
- Complete dissertation defense.
- Course enrollment
- Each semester: CHEM 701 and minimal 2 credit hours of CHEM 990.
- Enroll for CHEM 700, if you havent completed two enrollments of CHEM 700.
Timeline for MS program
YEAR 1
- Complete Research Advisor Check Sheet before the end of the 1st semester.
- Complete Professional & Scholarly Integrative Training before the end of year 1.
- Course enrollment and removal of any assessment
- The graduate coordinator will meet to discuss any undergraduate courses you may need
to
make up for deficiencies from the assessment exams. - 1st semester: CHEM 701, CHEM 734, one core course, and one focus course.
- 2nd semester: CHEM 701, one core course, and one focus course.
- You may enroll for CHEM 700. MS students must complete one enrollment of CHEM 700.
YEAR 2
Note for MS: The department usually offers two graduate courses each semester, one core course
and
one focus course. An MS student may complete their classroom course requirements in
just two years.
After completing your classroom courses you will continue to enroll in CHEM 701 and
CHEM 890 each
semester until you have defended your thesis.
- Complete Plan of Study before the end of your 3rd semester.
- Course enrollment
- 3rd semester: CHEM 701, 890 and courses above 700 in consultation with your advisor.
You
should be at or approaching the 15 credit hours of 700 level course work at this point. - 4th semester: CHEM 701 and 890.
- Enroll for CHEM 700, if you havent completed one enrollment of CHEM 700.
3. You may defend in your second year but consult with your advisor to plan for your thesis defense by end of the third year.
YEAR 3
- Prepare for thesis.
- Complete thesis defense.
- Course enrollment
Each semester: CHEM 701 and CHEM 890.
Assessment Exams
Graduate student assessment exams are given in August and January, usually two weeks
prior to the
start of class. They consist of five exams administered over a four day period. All new graduate
students must take these exams. The announcement for the exam schedule will be sent to each new
student prior to their arrival in the department. The purpose of the exams is to evaluate
each students knowledge in the five areas of chemistry: analytical, biochemistry,
inorganic, organic and physical. A student must show proficiency in four of these
areas before the end of their second semester, excluding summer. To demonstrate proficiency
in an area requires either passing the assessment exam or taking and passing the corresponding
undergraduate course with a grade of B or better. Each student will have two opportunities
to pass four of the five exams.
After taking the exams and receiving their scores all students meet with the graduate
coordinator for
course enrollment advising. Failure to pass four placement exams or the corresponding course
during the 1st year results in automatic recommendation for dismissal to the Graduate
School.
Assessment Exams and Corresponding Undergraduate Courses
Exam | Corresponding Course | Course Offered |
Analytical | CHEM 523 | Fall |
Biochemistry | CHEM 661 | Fall and Spring |
Inorganic | CHEM 615 | Spring |
Organic | CHEM 532 | Fall, Spring, and Summer |
Physical | CHEM 545 | Fall |
It is advisable for students to study for these exams to avoid taking undergraduate
courses. Students
who are required to take undergrad courses can substantially deter their academic
progress and may add extra semesters and expense to their course work.
Graduate Assistant Training
There are multiple required training for graduate assistants, including GTA training,
professional
integrity training and safety training. The Graduate School offers orientation and
required training for all
new graduate students and teaching assistants. Training is required for all new GTAs.
The schedule
for training can be found on the Graduate Schools Professional Development web page:
www.wichita.edu/pds
The link above will also provide you with information about many other activities
sponsored by the
Graduate School including social gatherings and award opportunities.
Department GTA training is offered on an as-needed basis and will be announced through
the
department office. This training includes required safety training and discusses best
practices in the
chemistry teaching lab.
Professional and Scholarly Integrity Training Requirement: All doctoral and masters students are
required to complete this training by the end of their first year. The Chemistry and
Biochemistry
graduate programs only require the CITI modules. Please visit this page for details:
/academics/gradschool/GraduateFaculty/Scholarly_and_Professional_Integrity_Training_Requ.php
You will get regular e-mails from the staff in the Graduate School. Be sure to read
these because they
contain useful information.
Mentor Selection
Choosing a research mentor is an important step in every graduate students career.
The best way to
make an informed choice is to meet with different potential research mentors and their
students. All
newly admitted graduate students should schedule a meeting with each research group
mentor and
obtain their signature on the Chemistry and Biochemistry Research Group selection
form. New graduate students should complete this process before the beginning of their
second semester.
GTA Positions
Requirements for GTA Positions All students who are admitted to the graduate program in good
standing are eligible for a GTA position provided they have work authorization and
the required English
abilities as determined by standard tests. Work authorization requires the issuance
of a social security
number. English requirements are met by scoring a 23 or better on the speaking portion
of the TOEFL
or a score of 7.0 or higher on the speaking portion of the IELTS exam. GTAs (0.5 FTE,
20 hours) are
normally assigned two laboratory sections, which are often in the same course, but
not always.
Teaching performance will be taken into consideration when renewing GTA awards. Termination
prior
to expiration of the appointment can be made for reasons such as failure to comply
with the supervisor's
teaching directive, failure to adhere to reasonable teaching and safety practices
and unprofessional
interaction with students.
All GTAs must also have three Spoken English Screening Forms signed. Two of these
are to be
completed by two faculty or staff and one student.
GTA positions are awarded to students based on department need. Preference is given
to students in
good standing and on-track for their degree. A GTA position is not a guaranteed job
and should not be
taken for granted. Students who have had problems or completed their assignment poorly
may not be
selected to TA in subsequent semesters. Masters students who have received six or
more GTA
appointments and PhD students who have received ten or more will be given less priority
when GTA
assignments are made. Graduate students whose GPA drops below 3.0 are not eligible
for a GTA
position without an approved exception from the Graduate School.
The GTA selection process begins when the department e-mails a GTA preference form
to all eligible
graduate students (see page 16 for an example). The department chair, in consultation
with the lab
coordinators, makes the GTA assignments using the returned preference forms as a guide.
It is
important that upon notification of a students teaching assignment that they contact
the lab coordinator
for instruction regarding the curriculum and TA meetings.
The GTA position comes with a number of important responsibilities and expectations.
These positions
are only possible because of the large number of undergraduate students who take our
classes.
Therefore, it is important to provide the lab students with a high quality learning
experience. The GTA
is critical in this experience. It is important to realize that this position is a
professional job in which
you must be reliable, punctual, prepared and respectful. It is the GTAs duty to provide
a safe and
educational lab experience while providing rigorous and timely feedback in the form
of graded quizzes,
reports and exams. To achieve this the GTA should maintain a respectful relationship
with the students
in their sections, their fellow GTAs and with the lab coordinators. A full time GTA
position is a 20 hour
per week appointment that requires a number of important duties including 1) attending
all recitations
for assigned sections, regardless of who is presenting that week, 2) arriving early
and prepared for all lab
sessions, 3) grading promptly, rigorously and fairly, 4) attending weekly TA meetings,
5) holding a
weekly office hour and one hour of open office hours in MC 223, and 6) responding
to student concerns
and e-mails.
GRA Positons
Graduate research assistantships are usually arranged with a professor who is willing
to support a
student with external grant funding. Some GRAs can also be arranged through the department
when
available, these include assistantships for running MS or x-ray samples for the department.
GRA
positions may be full time (20 hours) or half time. A student may hold a half time
GRA and a half time
GTA.
Research Responsibilities
Thesis or dissertation research forms the core of the graduate experience and provides
students with the
opportunity to establish depth of knowledge in their chosen area. With this opportunity
come a number
of important responsibilities.
Graduate students are expected to:
- Be hard working, diligent, responsible and dependable.
- Plan experiments in advance.
- Participate in general lab maintenance and perform routine clean up jobs.
- Interact in a neighborly fashion with other group members and be aware of their needs.
- Follow the instructions of their faculty mentor.
- Non-native English speakers should make every effort to improve their mastery of the
English
language, particularly their verbal skills. - Become familiar with the literature in their area of research.
- Diligently follow proper safety and laboratory notebook procedures. Students doing
research
in the evening and/or weekends, must exercise strict safety practices, and should preferably
work with a fellow graduate student in the same lab or an adjacent lab. - Keep laboratory notebooks in a safe place in the research laboratory. The notebook
should be
organized and kept in accordance with your research mentors directions. - Comply with the directive that the results of research, including but not limited
to, spectra,
notebooks, etc. belong to the research mentor as an agent of 蹤獲扦 University.
The faculty research advisor (mentor) will judge compliance with these guidelines
and may take
appropriate action to correct a problem up to terminating a GRA and dismissal from
his/her research
group.
Scientific Misconduct/Unethical Practices
Students should perform their research and pursue their graduate studies with honesty,
integrity and
diligence. Student's behavior in the classroom is governed by the Student Code of
Conduct (蹤獲扦 Policy
and Procedures 8.05). Violations of classroom standards are:
- Cheating in any form, whether in formal examinations or elsewhere.
- Plagiarism, using the work of others as one's own without assigning proper credit
to the source. - Misrepresentation of any work done in the classroom or in preparation for class.
- Falsification, forgery, or alteration of any documents pertaining to
academic records. - Disruptive behavior in a course of study or abusiveness toward faculty or fellow
students.
University Guidelines for Responsible Research Conduct are outlined here:
/research/ResponsibleConductofResearch/Responsible_Conduct_of_Research.p
hp
University guidelines for student academic integrity are here:
/about/policy/ch_02/ch2_17.php
"Misconduct in research" means fabrication of data, falsification, plagiarism, or
other practices that
deviate from those that are commonly accepted within the scientific community for
proposing,
conducting, or reporting research. Students that engage in unethical practices such
as, for example
cheating and plagiarism, while conducting their research and/or their coursework are
subject to loss of
financial support, suspension and/or dismissal from the university. Allegations regarding
scientific
misconduct and/or unethical practices should first be reported to the student's advisor
in writing, and a
copy given to the department chair and the graduate affairs committee chair for further
action.
Diversity and inclusion are important initiatives at 蹤獲扦. Grad students are required
to take Title IX
training. This training ensures that our students, faculty and staff provide a equitable
and inclusive
environment for our diverse university community. The Title IX policy statement and
other useful
information are found here:
/administration/oiec/titleixstatement.php
Graduate Fellowships
The department disperses certain funds annually that are received from the Graduate
School and the
蹤獲扦 Foundation. A significant amount of these funds are awarded to graduate students
as summer
support. A few are awardees are named Fellowships, including the Talaty and Zaid fellowships.
The
latter two are typically competitive and require an application packet submitted to
the department. The
competitions are announced via the Chemistry Office.
Plan of Study
The graduate plan of study form should be completed at the beginning of your second
year. This form
outlines the courses you have completed or are in the process of completing to satisfy
the degree
requirements. This is also the point at which you will identify the members of your
thesis or dissertation
committee. The form can be found at Graduate School web site and should be filled
out in consultation
with your advisor and then submitted to the department and Graduate School. Please
follow all
instruction on the form and be sure not to exceed the number or allowed credit hours
for your degree (30
for the MS and 72 for the PhD).
The Plan of Study forms can be obtained here:
/academics/gradschool/DegreeCompletion/PlanofStudy.php
Cumulative Exams (PhD only)
Students in the PhD program must begin taking cumulative exams at the start of their
second year and
after satisfying the assessment exams. Students must pass five cumulative examinations
out of 12
attempts to remain in the PhD. program. Three cumulative examinations (cumes) are
offered each
semester and are intended to help students keep abreast of scientific literature and
develop up-to-date
methods of solving problems encountered in their chosen field of research. Successful
completion of
five cumulative examinations out of the maximum of 12 is deemed sufficient evidence
of a student's
development in this area. At least three of the passed cumes must be in the students
main subject area.
The cumes are typically given in the months September, October, and November in the
fall semester and
February, March, April in the spring semester. Once a student begins taking cumes,
they must take each
offered cume until passing five.
At least one month before each cumulative exam date, the office will post a sign-up
sheet at the main
desk and announce it by e-mail. Students will sign up for the cumulative exam of their
choice and
professors will post one or more literature citation that will be covered on the cume.
The cumes will be
administered by a proctor on a Saturday morning and graded by the faculty member who
wrote the
cume. The results will be distributed by the office.
Independent proposal (PhD only)
After successfully completing the cumulative exams, students must develop and orally
defend an
original research proposal during their fifth semester. Original is defined as a proposed
project that was
conceived and developed by the student and is different from their dissertation research.
A students
proposal can utilize the physical methods of their dissertation research, if desired.
The scientific question
or hypothesis addressed by the proposal must not be related directly to any research
projects that their
mentor has done in the past, is doing currently or is planning to do in the future.
The guidelines below are from the NIH Quick Guide for Grant Applications which can be found on the
NIH web site. The page limits are maxima that should not be exceeded:
- Project Summary (1 page): The purpose of the Project Summary/Abstract is to describe
succinctly every major aspect of the proposed project. It should contain a statement of objectives
and methods to be employed. Consider the significance and innovation of the research proposed
when preparing the Project Summary. - Research Plan/Strategy (do not exceed 12 pages total): This is the main portion of
the proposal
and should include the following sections:
a. Specific Aims (1 page): The specific aims should cover: broad, long-term goals; the
specific objectives and hypotheses to be tested; summarize expected outcomes; and
describe impact on the research field.
b. Significance (1-2 pages): The Significance section should explain the importance of the
problem or describe the critical barrier to progress in the field that is being addressed.
Explain how the proposed research project will improve scientific knowledge, technical
capability, and/or clinical practice in one or more broad fields. Describe how the
concepts, methods, technologies, treatments, services, or preventative interventions that
drive this field will be changed if the proposed aims are achieved.
c. Innovation (1/2-1 page): Explain how the application challenges and seeks to shift current
research or clinical practice paradigms. Describe any novel theoretical concepts,
approaches or methodologies, instrumentation or interventions to be developed or used,
and any advantage over existing methodologies, instrumentation, or interventions.
Explain any refinements, improvements, or new applications of theoretical concepts,
approaches or methodologies, instrumentation, or interventions.
d. Approach (9-10 pages): : The purpose of the approach section is to describe how the
research will be carried out. This section will contain an overview of the experimental
design, description of methods and analyses, expected results and alternative approaches.
Be sure to have a detailed discussion of the way in which the results will be collected,
analyzed and interpreted. - Literature Cited (no page limits): Should include all literature references used throughout
your
proposal. This does not require a specific format, but should be consistent.
This exercise is meant to help a student develop their ability to think and plan advanced
research
projects. During this process the student prepares a proposal written in the style
of an NIH or NSF
proposal embodying a new and independent research problem and methods of achieving
a solution to
that problem. The graduate student is expected to independently identify the proposals
aims, conduct
the literature survey necessary to support their aims. The proposal should be written
without their
mentors input. The student then defends this proposal before his or her dissertation
committee.
Before preparing the proposal the student must provide the Graduate Affairs Committee
with a title and
one page abstract for their independent proposal. This abstract is given to the committee
along with the
students description of their dissertation research project(s). The committee examines
the proposal
abstract to ensure that it does not overlap substantially with their own dissertation
research according to
the guidelines given above. The research proposal must not duplicate the students
dissertation research
as determined by the Graduate Affairs Committee. This is to ensure that the proposed
project is the
students original ideas.
After the proposal topic has been approved by the Graduate Affairs Committee the student
should
contact all of the committee members to notify them of their topic and arrange a time
for the proposal
defense. The written proposal must be distributed to their dissertation committee
at least one week
before the defense date.
The PhD student may be asked to redo the defense and/or written paper once. Failure
of this second
chance results in removal from the PhD graduate track.
Research Seminar
PhD students are required to enroll twice in Chem 700. During the second enrollment
the PhD
candidate will give a 20-25 minute department seminar during the department colloquium.
The student
should work with the department and colloquium organizer to announce their talk. The
seminar should
cover their current research accomplishments and the planned research for their dissertation.
An
important goal of this seminar is to inform the students committee about their progress
and plans and is
one of the few times the student will meet with their entire committee.
After passing the cumulative exams, successfully defending the original research proposal,
and
presenting their department seminar, the student will have qualified as a candidate
for the PhD in
chemistry and must be enrolled in at least 2 credit hours of Research in Chemistry
(CHEM 990) each
semester for the duration of the program. The student is also now eligible to obtain
a non-thesis MS
degree, also called the masters along the way degree.
Masters Along the Way (PhD only)
Students in the PhD program in good standing, who have completed all required courses,
have
satisfactorily presented their departmental research seminar, have defended their
creative research
proposal, and have satisfied all other requirements for admittance to candidacy for
the PhD degree, will
upon request and approval by the students committee be awarded the MS degree. The
necessary form is available in the department office.
Graduate Courses
The graduate course requirements, including transfer courses can be found here:
/academics/gradschool/DegreeCompletion/DegreeRegulations.php
Graduate students must earn a grade point average of at least 3.00 in all courses
on the students 蹤獲扦
plan of study (excluding transfer work) AND for all graduate work taken at 蹤獲扦. Grades
lower than C,
including C-, cannot be used to satisfy degree requirements, but such grades earned
may be repeated.
Upper division (600 and above): Upper division courses from other department and colleges
can be
approved for a students plan of study provided these course are 600 and above and
are relevant to the
students area of study.
For graduate students, 9 graduate credit hours is considered a full load. Full time
(20 hour appointment)
GTAs and GRAs are considered enrolled full-time if they are enrolled in 6 credit hours
while holding
the appointment.
Courses for MS
CHEM 890 (Research in Chemistry), at least 15 credit hours in chemistry courses numbered
above 701,
including: CHEM 734 (Instrumental Methods for Research), at least three of the graduate
chemistry core
courses (CHEM 715 CHEM 722), CHEM 700 (Chemistry Seminar), Enroll in CHEM 701 (Chemistry
Colloquium) every semester of the degree program, additional courses in consultation
with major
advisor and the department.
Courses for PhD
Chem 990 (Research in Chemistry) Core Courses: CHEM 715 (Advanced Spectroscopy), CHEM
719
(Modern Synthetic Methods), CHEM 721 (Advanced Biochemistry), CHEM 722 (Advanced Physical
Chemistry), CHEM 734 (Instrumental Methods for Research). Focus Courses: two to three
focuses
courses numbered above 701 and/or the following: CHEM 717 (Advanced Spectroscopy II),
complete
two enrollment in the following: CHEM 700 (Chemistry Seminar), enroll the following
every semester:
CHEM 701 (Chemistry Colloquium)
Dissertation and Thesis Defense
The final requirement for both the MS and PhD degrees is the defense of a thesis based
on original
research. Well-prepared entering students should be able to complete the requirements
within two to
three years for an MS and four to six years for a PhD. Guidelines and examples for
thesis preparation
are available from your advisor or the department. The Graduate School publishes a
guide to preparing
your thesis/dissertation that is available online.
Your advisor will be the primary reviewer of the original draft. Once your advisor
has approved the
draft then you schedule a defense through the graduate school. It is advisable to
contact your committee
members well ahead of your planned defense date and work with them to find a date
and time where all
are available. Once that time is selected you will work with the department to schedule
a room for the
defense and to advertise your public talk. At this point you should contact the Graduate
School and they
will send an announcement to your committee members and provide your advisor with
the required
paperwork.
The written dissertation must be provided to all committee members at least two weeks
before the oral
defense. The department office should be notified of the defense date, time and room
number and the
dissertation title so that they can advertise the public defense through proper channels.
All defenses start with a public talk after which the public is excused and you continue
with an
examination consisting of questions posed by your committee. There are multiple possible
outcomes
from a defense: 1) the student may pass outright and the committee signs off on the
approval for both
the written document and the oral defense, 2) the committee requests some changes
or additions to the
written document based on omissions, corrections or failure to demonstrate specific
knowledge, 3) the
committee deems the work insufficient and requires the candidate to complete more
experiments or
analysis before passing, 4) the committee deems the work insufficient in quality or
quantity for the
degree and the candidate fails, 5) concerns arise regarding ethical or compliance
issues that are serious
enough that the committee fails the candidate. The first two outcomes are by far the
most common but it
is ultimately the decision of the committee whether the candidate passes this required
step in earning
their advanced degree.
Contact Information
Department Chair |
Doug English | 978-3238 | doug.english@wichita.edu |
Graduate Co-Coordinator | Dennis Burns | x7375 | dennis.burns@wichita.edu |
Graduate Co-Coordinator | Haifan Wu | x7379 | haifan.wu@wichita.edu |
Chemistry Office | Merrie Housdon | x7360 | merrie.housdon@wichita.edu |
Stock Room | Susan McCoy | x7362 | susan.mccoy@wichita.edu |
Instrumentation Manager | Dustin Nevonen | x3255 | dustin.nevonen@wichita.edu |
Campus Police | x3450 | ||
Graduate School | x3095 | ||
International Office | x3232 |