Timeroom: Summer 2023

Displaying 31 - 40 of 478 Results for: All Courses
Durham   Life Sciences & Agriculture :: Biology

BIOL 528 (01) - Applied Biostatistics I

Applied Biostatistics I

Online Course Delivery Method: Online (no campus visits), EUNH
Credits: 4.0
Term: Summer 2023 - Summer Session I (05/22/2023 - 06/23/2023)
Grade Mode: Letter Grading
Class Size:   20  
CRN: 70121
Knowledge of biostatistics is essential to understanding our observations of life on Earth and properly design and conduct scientific research. Students develop skills in organizing data and performing, presenting, and interpreting statistical analyses. Theoretical concepts are applied using statistical software(s) and prepared biological data. Topics include descriptive statistics, continuous and discrete probability distributions, inferential statistics, confidence intervals, hypothesis testing for a difference of means and proportions, linear regression, non-parametric hypothesis testing, and graphing.
Mutual Exclusion : ADM 430, ADMN 420, ADMN 510, EREC 525, HHS 540, MATH 439, MATH 539, MATH 644, PSYC 402, PSYC 402H, SOC 402, SOC 402H, SOC 502, SOC 502H
Attributes: Quantitative Reasoning(Disc)
Instructors: Patricia Jarema
Start Date End Date Days Time Location
5/22/2023 6/23/2023 Hours Arranged ONLINE

BIOT 760 (M1) - Numerical & Statistical Analysis in Biotechnology

Num. Statistical Analysis Biot

Credits: 4.0
Term: Summer 2023 - Summer Session I (05/22/2023 - 06/23/2023)
Grade Mode: Letter Grading
Class Size:   10  
CRN: 70818
In this course, students will gain an understanding of how best to conduct data analysis experiments utilizing data specific to biotechnology applications. Hands-on exercises involve using computer software programs such as Matlab and JMP. Data input/manipulation, descriptive and inferential statistics, hypothesis testing, curve fitting, and Matlab coding will be covered. Upon completion of the course, students should be able to conduct data analysis experiments within the context of biotech. No credit for students who have taken BSCI 797 "SpcTop/Num & Statistical Analysis". Prereq: CHEM 403 with a minimum grade of C- and (BIOL 413 with a minimum grade of C- or BIOL 411 with a minimum grade of C-).
Instructors: Won Hyuk Suh
Start Date End Date Days Time Location
5/22/2023 6/23/2023 TR 5:00pm - 9:00pm ONLINE

BIOT 775 (LM1) - Biopharmaceutical Production Processes

BiopharmProduction Process Lab

Credits: 0.0
Term: Summer 2023 - Summer Session II (05/22/2023 - 07/28/2023)
Grade Mode: Letter Grading
Class Size:   1  
CRN: 70533
This course will provide students with an overview of biopharmaceutical production processes through lectures. The course begins by introducing students to the proteins and biotechnology companies and to cGMP. During lab, students will use mammalian cells to produce and monoclonal antibody, by developing manufacturing SOPs, including upstream and downstream processing, and quality control and assurance. Students will also gain experience with T-cell culture as part of the CAR-T technology utilized in personal medicine. Prereq: CHEM 651/CHEM 653.
Section Comments: Cross listed with BIOT 875.LM1. Also meets in Rm. 554.
Instructor Approval Required. Contact Instructor for permission then register through Webcat.
Mutual Exclusion : ANSC 651, CHE 651
Instructors: Deborah Audino
Start Date End Date Days Time Location
5/22/2023 7/28/2023 TR 5:01pm - 7:00pm PANDRA P650EC

BIOT 775 (M1) - Biopharmaceutical Production Processes

BiopharmProduction Processes

Credits: 5.0
Term: Summer 2023 - Summer Session II (05/22/2023 - 07/28/2023)
Grade Mode: Letter Grading
Class Size:   1  
CRN: 70532
This course will provide students with an overview of biopharmaceutical production processes through lectures. The course begins by introducing students to the proteins and biotechnology companies and to cGMP. During lab, students will use mammalian cells to produce and monoclonal antibody, by developing manufacturing SOPs, including upstream and downstream processing, and quality control and assurance. Students will also gain experience with T-cell culture as part of the CAR-T technology utilized in personal medicine. Prereq: CHEM 651/CHEM 653.
Section Comments: Cross listed with BIOT 875
Instructor Approval Required. Contact Instructor for permission then register through Webcat.
Mutual Exclusion : ANSC 651, CHE 651
Instructors: Deborah Audino
Start Date End Date Days Time Location
5/22/2023 7/28/2023 TR 7:01pm - 9:00pm PANDRA P650EC

BIOT 860 (M1) - Numerical & Statistical Analysis in Biotechnology

Num. Statistical Analysis Biot

Credits: 3.0
Term: Summer 2023 - Summer Session I (05/22/2023 - 06/23/2023)
Grade Mode: Letter Grading
Class Size:   10  
CRN: 70819
In this course, students will gain an understanding of how best to conduct data analysis experiments utilizing data specific to biotechnology applications. Hands-on exercises involve using computer software programs such as Matlab and JMP. Data input/manipulation, descriptive and inferential statistics, hypothesis testing, curve fitting, and Matlab coding will be covered. Upon completion of the course, students should be able to conduct data analysis experiments within the context of biotech. No credit for students who have taken BIOT 897 "Top/Num & Statistical Analysis".
Only listed majors in section: BIOTECH IBMS
Instructors: Won Hyuk Suh
Start Date End Date Days Time Location
5/22/2023 6/23/2023 TR 5:00pm - 9:00pm ONLINE

BIOT 875 (LM1) - Biopharmaceutical Production Processes

Biopharm Prod Process Lab

Credits: 0.0
Term: Summer 2023 - Summer Session II (05/22/2023 - 07/28/2023)
Grade Mode: Letter Grading
Class Size:   7  
CRN: 70489
This course will provide the students with an overview of biopharmaceutical production processes through lectures. The course begins by introducing students to the proteins and biotechnology companies and to cGMP. During lab, students will use mammalian cells to produce a monoclonal antibody by developing manufacturing SOPs, including upstream and downstream processing and quality control and assurance. Students will also gain experience with T-cell culture as part of the CAR-T technology utilized in personal medicine.
Section Comments: Cross listed with BIOT 775.LM1. Also meets in Rm. 554.
Only listed majors in section: BIOTECH IBMS
Instructors: Deborah Audino
Start Date End Date Days Time Location
5/22/2023 7/28/2023 TR 5:01pm - 7:00pm PANDRA P650EC

BIOT 875 (M1) - Biopharmaceutical Production Processes

Biopharm Production Process

Credits: 3.0
Term: Summer 2023 - Summer Session II (05/22/2023 - 07/28/2023)
Grade Mode: Letter Grading
Class Size:   7  
CRN: 70487
This course will provide the students with an overview of biopharmaceutical production processes through lectures. The course begins by introducing students to the proteins and biotechnology companies and to cGMP. During lab, students will use mammalian cells to produce a monoclonal antibody by developing manufacturing SOPs, including upstream and downstream processing and quality control and assurance. Students will also gain experience with T-cell culture as part of the CAR-T technology utilized in personal medicine.
Section Comments: Cross listed with BIOT 775
Only listed majors in section: BIOTECH IBMS
Instructors: Deborah Audino
Start Date End Date Days Time Location
5/22/2023 7/28/2023 TR 7:01pm - 9:00pm PANDRA P650EC

BIOT 891 (M1) - Applied Research

Applied Research

Credits: 3.0 to 6.0
Term: Summer 2023 - Summer Session II (05/22/2023 - 07/28/2023)
Grade Mode: Graduate Credit/Fail grading
Class Size:   10  
CRN: 70347
The applied research experience enhances the student's academic achievements with real-world, professional industry projects through placement at biopharma industry organizations. The student is expected to apply knowledge and skills acquired through other coursework in the major to address and solve new, authentic problems identified by the employer. Under the direction of a faculty advisor and workplace supervisor, the student is expected to contribute effectively within a team at the organization.
Section Comments: Times arranged
Repeat Rule: May be repeated for a maximum of 6 credits.
Only listed majors in section: BIOTECH IBMS
Instructors: Kyle MacLea
Start Date End Date Days Time Location
5/22/2023 7/28/2023 R 3:40pm - 5:00pm ONLINE

BIOT 892 (M1) - Graduate Internship

Graduate Internship

Credits: 3.0 to 6.0
Term: Summer 2023 - Summer Session II (05/22/2023 - 07/28/2023)
Grade Mode: Graduate Credit/Fail grading
Class Size:   10  
CRN: 70348
The internship experience enhances the student's academic achievements with real-world, professional industry projects through placement at biopharma industry organizations. The student is expected to apply knowledge and skills acquired through other coursework in the major to address and solve new, authentic problems identified buy the internship employer. Under the direction of a faculty advisor and workplace supervisor, the student is expected to contribute effectively within a team at the organization.
Section Comments: Times arranged
Repeat Rule: May be repeated for a maximum of 6 credits.
Only listed majors in section: BIOTECH IBMS
Instructors: Kyle MacLea
Start Date End Date Days Time Location
5/22/2023 7/28/2023 R 3:40pm - 5:00pm ONLINE
Additional Course Details: 

Registering for academic credit does not complete your required internship approval process. Students must register and “request an experience” in the UNH online platform of Handshake once they have their internship. Visit https://app.joinhandshake.com/experiences/new to complete your approval process.

For more information on how to complete the Handshake approval process visit, https://manchester.unh.edu/student-internships or contact the UNH Manchester Career and Professional Success (CaPS) Office with questions.

BIOT 893 (M1) - Directed Graduate Research

Directed Graduate Research

Credits: 3.0 to 6.0
Term: Summer 2023 - Summer Session II (05/22/2023 - 07/28/2023)
Grade Mode: Graduate Credit/Fail grading
Class Size:   5  
CRN: 70490
The research project experience enhances the student's academic achievements with a project-based experience in an academics lab. The student is expected to apply knowledge and skills acquired through other coursework in the major to address and solve new, authentic basic or applied science questions under the direction of a faculty advisor. The student is expected to contribute effectively within a lab team.
Section Comments: Times arranged
Instructor Approval Required. Contact Instructor for permission then register through Webcat.
Repeat Rule: May be repeated for a maximum of 6 credits.
Only listed majors in section: BIOTECH IBMS
Instructors: Kyle MacLea
Start Date End Date Days Time Location
5/22/2023 7/28/2023 R 3:40pm - 5:00pm ONLINE