Advertisement

Stanford EE Masters Acceptance Rate

Stanford EE Masters Acceptance Rate – CollegeLearners.com

In the world of engineering, Stanford is a name you can trust. From the day you arrive on campus until you graduate, Stanford University will help you discover endless outlets for your intellectual curiosity.

Advertisement

Stanford EECS is noted for its interdisciplinary research and teaching, maintaining close ties with other disciplines that deal with natural and man-made phenomena: electrical engineering; computer science; both branches of mechanical engineering; and systems biology under the Institute for Medicine and Engineering (IMBE).

With this wide range of expertise at your fingertips, you’ll be able to learn from some of the best minds in their fields—and you might even be inspired by them to pursue a career in one of those fields yourself!

Have you been looking for information on Stanford EE Masters Acceptance Rate for a long time without success? Find out about such things on Collegelearners. What are you waiting for? All the relevant information you need, now at your fingertips on Collegelearners site! Get clear details about Stanford online masters electrical engineering, Stanford computer engineering masters, eligibility for MS in Stanford University and Stanford EE Masters Acceptance Rate today.

Graduate school acceptance rates and other prerequisites may vary by program and subject area and vary from year to year. Even the most qualified and confident applicants are concerned about going to graduate school. But don’t worry! Graduate school acceptance rates, which provide the percentage of applicants who have been admitted to a particular school or program in an academic year, can help you determine how likely you are to be admitted to a given program.

Stanford Commencement Weekend 2019 in pictures | Stanford News

How to get into Stanford university for masters

The Stanford School of Engineering is highly selective, with an acceptance rate for masters-level students of around 16%. This places the school within the highly competitive division. Before applying, you should be absolutely certain which department and degree you want to obtain as the school’s policy only allows for application to one graduate programme per academic year.

Though there are many commonalities between the requirements for each engineering department, there is some variation, especially with regards to application deadlines. Be sure to source out the specifics beyond the general to avoid being ruled out on a technicality.

And, if you already hold (or will hold) an MS degree, they’ll direct your application to their PhD programme.

MS (Master of Science) Admissions Overview | Stanford EE

Application Timeline & Deadlines (exact dates to be announced)

mid-SeptemberOnline application opens
October 10, 2019Knight-Hennessy Scholars (KHS) application deadline. KHS is an optional scholarship program. 
November 3, 2019Deadline to take TOEFL to ensure timely arrival of scores
December 3, 2019Application Deadline for Autumn 2020-2021
Late February 2020Notification of admission decision sent via email
April 15, 2020Deadline for admitted students to respond to offer of admission

Did You Know?

  • The MS program in Electrical Engineering leads to a terminal degree. Students who wish to enter the PhD program must apply through the general PhD admission process.
  • Applications are reviewed on an annual basis for autumn quarter start only.
  • December 3, 2019 is the application deadline for Autumn 2020-2021.
  • MS students complete 45 units of study based on an individually designed course plan that satisfies the department’s depth, breadth, and technical course requirements. There is no thesis requirement.
  • Typical completion time for the MS degree is 1.5-2 years for full-time students.
Stanford Commencement Weekend 2016 in pictures | Stanford News

Stanford EE Masters Acceptance Rate

Stanford University’s undergraduate acceptance rate in 2020-2021 admission is 4.9%. This implies that for every 100 applicants, 4 students were admitted, making the process of admissions at Stanford highly competitive.

The current acceptance rate for masters-level students at the Stanford School of Engineering is around 16%.

https://youtu.be/-Nmgm3PwZFk

Stanford Graduate Programs electrical electronics Admission Requirements

To be eligible for admission to graduate programs at Stanford, applicants must satisfy the following conditions and tender the following documents:

  • Applicants must hold, or expect to hold before enrollment at Stanford, a bachelor’s degree from a U.S. college or university accredited by a regional accrediting association.
  • Candidates from institutions outside the U.S. must hold the equivalent of a U.S. bachelor’s degree from a college or university of recognized standing.
  • Applicants do not need to meet any minimum grade point average (GPA). As a guideline, successful applicants typically earn undergraduate cumulative GPAs among the top of their class. In other words, Stanford doesn’t disclose her GPA requirements.
  • Test scores such as the GRE exam are not demanded.
  • TOEFL (Test of English as a Foreign Language) scores are required of all applicants whose first language is not English. However, applicants whose scores fall below Stanford’s minimum TOEFL requirements will still be examined for admission; if admitted, Stanford may require these students to take a placement exam and/or classes to meet the University’s English proficiency requirement.

Students who meet the above degree requirement with a strong technical background in engineering, physical sciences, or mathematics are welcome to apply; a bachelor’s degree in electrical engineering is not strictly required.

Additional Documents

  • Statement of Purpose – This describes your reasons for applying to the proposed program.
  • 3 Letters of Recommendation – Letters of recommendation should come from academic (or professional) references who can vouch for your academic and/or research background. Recommenders should know you well and be able to elucidate on your strengths and your potential for graduate study. Academic references are strongly fancied.
  • Transcripts (Academic Records) – You’re to submit transcripts from every college/university you have attended for at least one year as a full-time student.
  • Application Fee – A nonrefundable application fee of $125 is required for each application tendered to a graduate program at Stanford University. 
MS (Master of Science) Admissions Overview | Stanford EE

Does Stanford University EE Offer Joint Degree Programs

Joint degree programs enable students to pursue more than one degree simultaneously. Stanford University offers a Joint EE MS/MBA Degree Program and Joint JD/MS Degree Program. Stanford University and the University of Southern California jointly offer a program of study leading to dual degrees: a Bachelor of Science in Engineering from Stanford and a Bachelor of Arts or Sciences from USC. The program is open to freshmen and sophomores enrolled at either school. Students interested in this dual degree program should apply using the procedures of both schools. Applications must be submitted electronically through the Common Application website. Please note that students need not specify which dual degree they are applying to until they submit their application materials, including all essays and transcripts for first-year admission. This procedure allows both schools’ admissions committees to effectively manage their pool

The Joint Engineering Master’s Program (JEM) is designed for students who have already earned an undergraduate degree in Engineering or all other related disciplines, but who do not have enough course credits to meet the minimum requirements for admission into a program leading directly to the MS degree in Engineering Science at USC or MS degree at UCLA. Students may also apply if they wish to complete an additional master’s

Joint EE MS/MBA Degree Program

Overview

The joint MS in Electrical Engineering/MBA Degree Program (MS/MBA) allows students to pursue concurrently a Master of Science in Electrical Engineering and a Master of Business Administration at the Graduate School of Business (GSB).

Joint MS/MBA degree students will learn technology and leadership with a desire to become managers or entrepreneurs in technologically-inclined businesses. Through the course of the program, students acquire a united knowledge of engineering strategy and execution to drive future innovations that increasingly involve both technology and business. Completion of the program requires 129 units of merged coursework, enabling students to finish in 9 quarters.

Joint JD/MS Degree Program

Overview

The joint JD/MS in Electrical Engineering Degree Program enables students to pursue concurrently a Juris Doctor at the Stanford Law School and Master of Science in Electrical Engineering. The joint JD/MS program is intended for students who wish to equip themselves for careers that involve both Law and Electrical Engineering. Whether one’s focus is net neutrality, patent policy, or any of a host of such mixed inquiries, Stanford’s JD/MS program presents uniquely rigorous preparation.

45 quarter units of approved courses may be counted toward both degrees. Not more than 31 quarter units of approved courses that arise outside the law school may count toward the law degree.

What Is Stanford University Electrical Engineering Acceptance Rate

Stanford University’s undergraduate acceptance rate in 2019-2020 admission is 4.9%. This implies that for every 100 applicants, 4 students were admitted, making the process of admissions at Stanford highly competitive.

The current acceptance rate for masters-level students at the Stanford School of Engineering is around 16%.

stanford graduate school acceptance rate

 Stanford University’s undergraduate acceptance rate in 2020-2021 admission is 4.9%. While the current acceptance rate for masters-level students at the Stanford School of Engineering is around 16%.

Stanford Technology Ventures Program : Lessons from Stanford Entrepreneurs

stanford masters requirements

To be eligible for admission to graduate programs at Stanford, applicants must satisfy the following conditions and tender the following documents:

  • Applicants must hold, or expect to hold before enrollment at Stanford, a bachelor’s degree from a U.S. college or university accredited by a regional accrediting association.
  • Candidates from institutions outside the U.S. must hold the equivalent of a U.S. bachelor’s degree from a college or university of recognized standing.
  • Applicants do not need to meet any minimum grade point average (GPA). As a guideline, successful applicants typically earn undergraduate cumulative GPAs among the top of their class. In other words, Stanford doesn’t disclose her GPA requirements.
  • Test scores such as the GRE exam are not demanded.
  • TOEFL (Test of English as a Foreign Language) scores are required of all applicants whose first language is not English. However, applicants whose scores fall below Stanford’s minimum TOEFL requirements will still be examined for admission; if admitted, Stanford may require these students to take a placement exam and/or classes to meet the University’s English proficiency requirement.

Students who meet the above degree requirement with a strong technical background in engineering, physical sciences, or mathematics are welcome to apply; a bachelor’s degree in electrical engineering is not strictly required.

Additional Documents

  • Statement of Purpose – This describes your reasons for applying to the proposed program.
  • 3 Letters of Recommendation – Letters of recommendation should come from academic (or professional) references who can vouch for your academic and/or research background. Recommenders should know you well and be able to elucidate on your strengths and your potential for graduate study. Academic references are strongly fancied.
  • Transcripts (Academic Records) – You’re to submit transcripts from every college/university you have attended for at least one year as a full-time student.
  • Application Fee – A nonrefundable application fee of $125 is required for each application tendered to a graduate program at Stanford University. 
Stanford for adult learners: Master of Liberal Arts @ 25 - Stanford 125

Stanford University EE Undergraduate Admission Requirements

Applying for admission into the Stanford EE BS program is a straightforward process. To be eligible for undergraduate admission, you have to tender the following;

  • $90 nonrefundable application fee or fee waiver request 
  • ACT or SAT (Writing/Essay not required)
  • School Report and counselor letter of recommendation
  • Official transcript(s)
  • Letters of recommendation from two teachers

After submitting your application, you will receive an application acknowledgment email from Stanford once your application has been treated. Therefore, make sure that your email address is valid to ensure you receive all correspondence.

Stanford University: Rankings, Fees, Courses, Admission 2022, Eligibility &  Scholarships

stanford electrical engineering courses

The structure of our curriculum provides undergraduate students with great flexibility, allowing for earlier completion of a co-term, earning a double major, or taking courses outside of electrical engineering (EE). Our undergraduate curriculum also introduces application of EE fundamentals earlier in the bachelor of science (BS) program; fosters the maker culture in EE education; and teaches all engineering students about basic electrical engineering tools. Check out our newest and most popular courses below!

Introductory Engineering Electromagnetics, EE42

Professor Olav Solgaard and Professor Jelena Vuckovic cover the topics of electrostatics, magnetostatics, Maxwell’s equations, one-dimensional wave equation, electromagnetic waves, transmission lines, and one-dimensional resonators. Understand electricity and magnetism and its essential role in modern electrical engineering devices and systems. Link to EE42 in Explore Courses. –Winter

Virtual Reality, EE267

With an emphasis on VR technology, Professor Gordon Wetzstein leads students through OpenGL, real-time rendering, 3D display systems, display optics & electronics, IMUs and sensors, tracking, haptics, rendering pipeline, multimodel human perception and depth perception, stereo rendering, presence. Link to EE267 in Explore Courses. –Spring

An Intro to Making: What is EE? ENGR40M

One of the most popular EE classes – this is a hands-on class where you learn to make stuff. Through the process of building, Professor Mark Horowitz will introduce the basic areas of EE. Students build a ‘useless box’ and learn about circuits, feedback, and programming hardware. A light display for your desk or bicycle will teach you about coding, transforms, and LEDs. A solar charger and an EKG machine introduce basic concepts about power, noise, and circuit safety. Best of all, you get to keep the toys you build. Link to ENGR40M in Explore Courses. –Autumn; Spring

Modern Physics for Engineers, EE65

Going beyond classical physics to introduce concepts from quantum mechanics and statistical physics – EE65 takes your interest and love of physics to the next level. In imaginative and insightful ways, Professor David Miller will explain how these abstract fields help understand a wide array of devices, applications and even everyday events. For instance, we cannot fully comprehend the color and brightness of the sun, much less the workings of a solar cell, without this knowledge. The class will show how these ideas enable engineers to understand and improve transistors, lasers, photo-detectors, memory devices and other electronic devices. Link to EE65 in Explore Courses. –Spring

Introduction to Matrix Methods, EE103

Linear Algebra and Dynamic Systems has never been so interesting or powerful. In EE103 we don’t just talk about it, we do it. This course will enable students with a wide variety of educational backgrounds to understand the basic concepts and exciting applications of linear algebra. Led by Professor Stephen Boyd, one of the preeminent thinkers in this field, EE103 will empower students to develop and build their own systems using simple open source software tools that we are developing. We will not just talk about linear algebra. We will do it. Link to EE103 in Explore Courses. —Autumn

Embedded Networked Systems, EE107

This class is a hands-on introduction to how networks of different scales are designed, from datacenters to embedded low power networks. Networks form interconnects that stitch together our digital and physical lives. They underpin cloud computing, our mobile connectivity, as well as the means to connect the large number of sensors that will pervade our physical surroundings. Professor Sachin Katti will teach these concepts through a project that involves building a wireless network from the ground up using software radios. Students will also learn how to use these networks to build embedded applications (e.g. wireless controlled network of drones, localization systems using WiFi). The goal is to introduce students to larger concepts in electrical engineering and computer systems: the role of abstraction and layering, building reliable systems out of unreliable components and dynamic sharing of scarce resources. Link to EE107 in Explore Courses. — Autumn

Power Electronics, EE153

Thinking about the energy and environmental challenges of the future? Understand the behavior of diodes, transistors, capacitors, and inductors in application. Taught by Professor Juan Rivas-Davila, this course focuses on the circuits used to efficiently convert AC power to DC power, step DC power from one voltage level to another, and convert DC power to AC power. The components used in these circuits (e.g., diodes, transistors, capacitors, inductors) are also covered in detail to highlight their behavior in a practical implementation. A lab held with the class will give students hands-on experience with power electronic circuits. The class also has a final project that requires a math design, simulation, implementation and experimental verification.   Link to EE153 in Explore Courses. —Winter

EE/CS Courses:

EE has a significant overlap with CS, not only in hardware and software systems, but also in developing algorithms for signals, data processing, and machine learning. This overlap is captured through many courses and the research of the 15 faculty who have joint appointments between EE and CS. Understanding the relationship between EE and CS through a combination of both fields is the key to moving beyond current technology, hardware, and software constraints.

  • Digital Systems/Embedded Systems: CS107, 107E, 110, 140, 143, 149, 241, 246
  • Networking: CS144
  • Machine Learning: CS229
  • Graphics: CS148
  • Computer Vision: CS131
  • Security: CS155, 255

What Current EE Students Say…

Our students are a close-knit group. They enjoy the popular and innovative curriculum, the diverse and flexible nature of Electrical Engineering, and also being part of an outstanding university. More insights are available from our Spotlight profiles, featuring students, faculty, and alumni.

  • Read EE’s Spotlight Profiles by students just like you – Spotlight Profiles.
  • Always Happening & New: EE Event Calendar

Leave a Reply

Your email address will not be published. Required fields are marked *

You May Also Like