Riipen | Physics Applied Projects (Fall 2024)

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Physics Applied Projects (Fall 2024)

PHYS 3111

Fermé

Contact principal

The University of Memphis

Memphis, Tennessee, United States

Firouzeh Sabri

Elle

Chair

Chronologie

novembre 4, 2024

Début de expérience
décembre 9, 2024

Fin de expérience

Expérience

1 projets souhaités

Dates fixées par le expérience

Entreprises privilégiées

N'importe où

Tout type de entreprise

N'importe qu'elle industrie

Portée de Expérience

Catégories

Génie civil Génie mécanique Conception de produits matériels Scientific research

Compétences

research mechanics of materials applied physics materials science

Objectifs et capacités de apprenant.es

The University of Memphis invites industry partners to collaborate with students enrolled in our advanced Newtonian Mechanics course. This course builds on foundational physics principles and focuses on deepening students' understanding and application of Newtonian mechanics.

Designed for undergraduate students proficient in calculus, trigonometry, and basic physics, students will develop skills in solving parametric problems, applying Newtonian mechanics to real-world situations, and enhancing their logical and intuitive problem-solving abilities. Employers can expect students to bring a strong analytical background and practical approach to projects.

Apprenant.es

Premier cycle universitaire

Niveau Débutant, Intermédiaire

25 apprenant.es dans le programme

Projet

50 heures par apprenant.e

Les Éducateur.trices affectent les apprenant.es à des projets

Équipes de 4

Résultats et livrables attendus

Deliverables are negotiable and will seek to align the needs of the learners with those of the organization.

Some final project deliverables might include:

A 10-15 minute presentation on key findings and recommendations
A detailed report including their research, analysis, insights and recommendations

Chronologie du projet

novembre 4, 2024

Début de expérience
décembre 9, 2024

Fin de expérience

Exemples de projets

Exigances

Ideal projects for this experience should align with the course objectives and allow students to apply their advanced mechanics skills in practical settings. Project activities that learners can complete may include, but are not limited to:

Structural Analysis of Engineering Projects: Analyze the structural integrity of a proposed engineering project using Newtonian mechanics principles.
Dynamics of Machinery: Evaluate and optimize the performance of machinery components through dynamic analysis.
Robotics Motion Planning: Develop and test algorithms for the motion planning of robotic systems, ensuring accurate and efficient movement.
Aerospace Engineering Challenges: Solve complex problems related to the dynamics of flight and spacecraft navigation.
Biomechanical Analysis: Investigate the mechanics of human movement and design improvements for prosthetics or orthotic devices.
Remote sensing applications: Mechanical and thermal remote sensing technology for extreme conditions. Evaluation of stress/ strain/ and temp. exposures of composite materials.

Critères supplé mentaires pour entreprise

Les entreprises doivent répondre aux questions suivantes pour soumettre une demande de jumelage pour cette expérience:

Q1 - Texte court

Will you be able to participate in the final presentation and provide feedback to the students? *

Q2 - Texte court

How frequently will you be able to communicate with the student team and provide guidance? *

Q3 - Texte court

Do you have prior experience interacting with undergraduate students? *