The BEST Engineering Degrees RANKED (2024)

Engineer-Millionaire™

30 Apr 202413:57

Summary

TLDRThis video explores the top 20 engineering degrees, focusing on starting salaries, average earnings, and job growth over the next decade. It highlights the importance of materials, agricultural, and environmental engineering, emphasizing their roles in sustainability and efficiency. The channel also discusses the growing demand for computer, software, and AI engineering, driven by technological advancements and the digital age. The host, a professional engineer, concludes with personal top picks, suggesting AI and related fields for their future potential, and biomedical and agricultural engineering for their essential roles in a growing global population.

Takeaways

🔍 **Materials Engineering**: Starting at $63,000, with potential to reach $100,000, expected to grow 5% due to demand for new materials and manufacturing processes.
🌾 **Agricultural Engineering**: Begins at $50,000, with a ceiling of $83,000, and is projected to grow 6% as it plays a critical role in sustainable food production.
🌿 **Environmental Engineering**: Starts at $60,000, with an average earning of $96,000, expected to grow 6%, driven by heightened public awareness of environmental hazards.
🏭 **Industrial Engineering**: With starting salaries at $65,000 and potential to grow to $96,000, expected to grow 12%, focusing on reducing internal costs in manufacturing and other industries.
🏗️ **Civil Engineering**: Starting at $65,000, with average earnings of nearly $90,000, and a 5% growth projection, driven by continued investment in US infrastructure.
🛠️ **Biomedical Engineering**: Begins at $66,000, advancing to nearly $100,000, with a 5% growth expectation, merging healthcare and engineering as demand for biomedical devices and procedures increases.
💻 **Computer Systems Engineering**: Starts at $68,000, with potential to reach $102,000, and is projected to grow 10% as organizations rely on computer systems.
⚙️ **Mechanical Engineering**: With starting salaries at $69,000 and average earnings of $96,000, anticipates a 10% growth, as it is the cornerstone of various industries.
🔋 **Electrical Engineering**: Begins at $75,000, climbing to $103,000, with a 5% growth projection, fundamental to countless sectors and expected to grow as companies utilize their expertise.
🛩️ **Aerospace Engineering**: Starts earning $73,000 a year and can extend to $127,000, with a 6% growth rate, driven by technological advancements and the increasing accessibility of space.
🔬 **Chemical Engineering**: Begins at $59,000 but reaches $106,000 on average, with an 8% growth projection, driven by the need for sustainable energy and material solutions.
💾 **Computer Hardware Engineering**: Starts at $52,000, with potential to grow to $132,000, and a 5% growth expectation, reflecting the critical role in evolving computing infrastructures.
☢️ **Nuclear Engineering**: Offers starting salaries at $67,000, with mid-career at $122,000, projected to show little or no change, with demand influenced by the viability of renewable energy.
🚀 **Petroleum Engineering**: Ranks seventh with starting salaries at $74,000, potential to hit $131,000, and a 2% growth projection, influenced by the need for facilitating oil and gas extraction.
🌞 **Renewable Energy Engineering**: Starts at $62,000, with potential to grow to $106,000, and a robust expected demand growth of 15%, reflecting the global shift towards renewable energy sources.
🤖 **Robotics Engineering**: Begins at $72,000, escalating to $118,000, with a 9% growth expectation, attributed to the increasing use of robots in various industries.
📊 **Data Engineering**: With salaries starting at $74,000 and average earnings reaching $113,000, reflecting the critical role of data in the digital age.
🛡️ **Cybersecurity Engineering**: Begins at $81,000, climbing to $112,000, with a 32% growth projection, as digital security becomes increasingly relevant.
🤖 **Software Engineering**: Starts at $87,000, with seasoned professionals earning $127,000, and a 26% growth projection, driven by the expansion of software development in various fields.
🧠 **Artificial Intelligence Engineering**: At the top with starting salaries at $91,000 and potential average earnings of $155,000, with a staggering predicted growth rate of 73%, shaping the future of technology.

Q & A

What is the focus of the video script provided?
-The video script focuses on the top 20 engineering degrees, discussing starting salaries, average earnings, and anticipated job growth over the next 10 years.
What is the starting salary for a materials engineer according to the script?
-The starting salary for a materials engineer is around $63,000 a year.
What is the projected job growth for materials engineers in the next 10 years?
-The projected job growth for materials engineers is 5% in the next 10 years, which is faster than the average for all occupations.
How does the script describe the role of agricultural engineers in food production?
-The script describes agricultural engineers as critical players in the quest for sustainability and efficiency in food production.
What is the expected starting salary for an environmental engineer?
-The expected starting salary for an environmental engineer is about $60,000 a year.
What is the projected growth rate for employment of industrial engineers by 2032?
-The projected growth rate for employment of industrial engineers is 12% by 2032, which is much faster than the average for all occupations.
What is the starting salary for a civil engineer as mentioned in the script?
-The starting salary for a civil engineer is $65,000 a year.
What are the key areas of growth for biomedical engineers?
-Biomedical engineers are expected to see employment growth due to the demand for biomedical devices and procedures such as hip and knee replacements.
What is the starting salary for computer systems engineers and their potential growth?
-The starting salary for computer systems engineers is around $68,000 a year with the potential to grow to $102,000 a year.
What is the script's ranking for mechanical engineering in terms of starting salaries and average earnings?
-Mechanical engineering is ranked at number 13 with starting salaries at around $69,000 and average earnings of $96,000.
What are the top three degrees recommended by the script's presenter?
-The top three degrees recommended by the presenter are AI engineering and other occupations related to it, biomedical engineering, and agricultural engineering.
What is the reason behind the presenter's preference for biomedical and agricultural engineering?
-The presenter prefers biomedical and agricultural engineering because of the increasing world population, which will drive a bigger demand for food and healthcare.
What is the starting salary for a software engineer as per the script?
-The starting salary for a software engineer is $87,000 a year.
What is the projected employment growth rate for software developers by 2032?
-The projected employment growth rate for software developers is 26% by 2032, which is much faster than the average for all occupations.
What is the top-ranked engineering degree in the script?
-The top-ranked engineering degree in the script is artificial intelligence engineering.
What is the starting salary for an artificial intelligence engineer according to the script?
-The starting salary for an artificial intelligence engineer is $91,000 a year.
What is the projected growth rate for employment in artificial intelligence engineering over the next 10 years?
-The projected growth rate for employment in artificial intelligence engineering is staggering at 73% over the next 10 years.

Outlines

00:00

🔬 Engineering Degrees Overview

This paragraph introduces the video's focus on the top 20 engineering degrees, highlighting starting salaries, average earnings, and job growth projections over the next decade. It emphasizes the incorporation of new data and a twist on expected pathways. The host, Alex, a professional engineer and career coach, presents his qualifications and begins the countdown with materials engineering at number 20, noting its role in developing new materials for products and systems, with a 5% job growth projection due to increasing demand for new materials and manufacturing processes.

05:02

🌾 Agricultural and Environmental Engineering Insights

The second paragraph delves into agricultural engineering at number 19, underscoring its importance in sustainable food production with a 6% job growth projection. It mentions the need for agricultural engineers to design efficient machinery and reduce environmental damage. Environmental engineering is discussed at number 18, with a 6% growth rate anticipated due to heightened public awareness of environmental hazards. The paragraph also covers industrial engineering at number 17, expecting a 12% growth by 2032, and civil engineering at number 16, with a 5% growth projection, both emphasizing their roles in infrastructure and societal needs.

10:03

🛠️ Biomedical and Computer Systems Engineering Trends

The third paragraph discusses biomedical engineering at number 15, which merges healthcare with engineering, and expects a 5% employment growth due to increasing demand for biomedical devices and procedures. Computer systems engineering at number 14 is highlighted for its 10% growth projection by 2032, as organizations continue to rely on IT. Mechanical engineering at number 13, with a 10% growth rate, is emphasized for its broad industry application, especially in automation machinery. Electrical engineering at number 12 is noted for its fundamental role across sectors, with a 5% growth projection, and chemical engineering at number 11 is recognized for its key role in sustainable energy and material solutions, anticipating an 8% growth.

✈️ Aerospace and Emerging Engineering Fields

Aerospace engineering at number 10 is featured for its 6% growth projection, driven by redesigns for less noise pollution and better fuel efficiency. The paragraph introduces computer hardware engineering at number 9, with a 5% growth expectation, and nuclear engineering at number 8, which shows little to no change in employment over the next decade. It also touches on petroleum engineering at number 7, with a 2% growth projection, and renewable energy engineering at number 6, reflecting a robust 15% growth due to the global shift towards renewable energy sources.

🤖 Robotics, Data, and Cybersecurity Engineering Advancements

Robotics engineering at number 5 is highlighted for its pivotal role in automation across industries, with a 9% growth projection by 2030. Data engineering secures the fourth spot, with a 35% growth rate expected for data scientists, reflecting the critical role of data in the digital age. Cybersecurity engineering at number 3 is emphasized for its 32% growth projection, underscoring the increasing relevance of digital security as cyber attacks grow in frequency.

💡 Software and Artificial Intelligence Engineering Dominance

Software engineering is discussed at number 2, recognized as a cornerstone of the tech industry, with a 26% growth projection by 2032. The paragraph concludes with artificial intelligence engineering at number 1, which is predicted to have a staggering 73% growth rate over the next decade. The host shares his top three degrees, favoring AI and related fields, but also suggests biomedical and agricultural engineering due to the increasing global demand for food and healthcare.

Mindmap

Keywords

💡Engineering Degrees

Engineering degrees refer to academic qualifications in various disciplines of engineering. In the video, the host discusses the top 20 engineering degrees, focusing on factors like starting salaries, average earnings, and job growth prospects. This keyword is central to the video's theme as it sets the stage for the exploration of different engineering career paths.

💡Starting Salaries

Starting salaries represent the initial income that an individual can expect to earn in a particular job or career. The video script provides specific figures for the starting salaries of various engineering degrees, indicating the financial potential for recent graduates in these fields. This concept is integral to the video's message, as it helps viewers gauge the economic viability of different engineering careers.

💡Average Earnings

Average earnings denote the typical income that professionals in a field can expect to make over time, often including experience and seniority. The script mentions average earnings for different engineering degrees, showing the long-term financial prospects. This is important for understanding the growth potential within each engineering discipline.

💡Job Growth

Job growth refers to the projected increase in the number of job opportunities within a particular field over a specified period. The video outlines the anticipated job growth for various engineering degrees, highlighting the future demand for these professionals. This concept is crucial for assessing the sustainability and growth potential of different engineering careers.

💡Materials Engineering

Materials Engineering is a field focused on the development, processing, and application of materials. The script positions it at number 20 in the list, with a 5% growth projection, emphasizing its role in creating new materials for products and systems, such as lighter and more fuel-efficient airplanes.

💡Agricultural Engineering

Agricultural Engineering involves the design of machinery, equipment, and structures for efficient and sustainable food production. The video script places it at number 19, with a 6% growth projection, underscoring the importance of this field in addressing global food security and environmental sustainability.

💡Environmental Engineering

Environmental Engineering is concerned with addressing environmental issues, such as pollution and resource management. The script lists it at the 18th spot, with a 6% growth projection, reflecting the increasing demand for professionals to improve environmental conditions and promote sustainability.

💡Industrial Engineering

Industrial Engineering is a discipline focused on optimizing production processes and systems efficiency. The video mentions it at number 17, with a 12% growth projection, indicating the high demand for professionals in this field as companies seek to reduce costs and improve operational efficiency.

💡Civil Engineering

Civil Engineering involves the planning, design, and construction of infrastructure projects. The script places it at number 16, with a 5% growth projection, highlighting the continuous need for civil engineers in upgrading and maintaining critical infrastructure like bridges and water systems.

💡Biomedical Engineering

Biomedical Engineering is an interdisciplinary field that combines engineering principles with medical and biological sciences. The video script lists it at number 15, with a 5% growth projection, showcasing the increasing demand for professionals in this field as the need for advanced medical devices and procedures grows.

💡Computer Systems Engineering

Computer Systems Engineering involves the design and implementation of computer systems and networks. The script positions it at number 14, with a 10% growth projection, reflecting the ongoing reliance on IT systems across various industries and the need for professionals to manage and innovate these technologies.

Highlights

Top 20 engineering degrees explored with a focus on starting salaries, average earnings, and job growth over the next decade.

Materials Engineering at number 20 with a 5% job growth projection, driven by demand for new materials and manufacturing processes.

Agricultural Engineering at number 19, with a 6% growth rate, essential for sustainable food production and environmental efficiency.

Environmental Engineering ranked 18th, with heightened public awareness driving a 6% job growth for environmental solutions.

Industrial Engineering at number 17, with a 12% growth rate due to the need for cost reduction in manufacturing and other industries.

Civil Engineering at number 16, with a 5% growth rate, crucial for infrastructure projects and renewable energy oversight.

Biomedical Engineering in 15th place, merging healthcare with engineering, and expected to grow by 5% due to demand for medical devices.

Computer Systems Engineering at number 14, with a 10% growth rate as organizations increasingly rely on computer systems.

Mechanical Engineering, the cornerstone of engineering, with a 10% growth rate due to complex automation machinery needs.

Electrical Engineering at number 12, fundamental to various sectors, with a 5% growth rate and key roles in electronic devices and systems.

Chemical Engineering at number 11, with an 8% growth rate, driven by sustainable energy needs and material solutions.

Aerospace Engineering at number 10, with a 6% growth rate, as aircraft are redesigned for less noise and better fuel efficiency.

Computer Hardware Engineering in 9th place, with a 5% growth rate, reflecting the evolving computing infrastructures demand.

Nuclear Engineering at number 8, with little change in employment, influenced by renewable energy viability and nuclear plant construction limits.

Petroleum Engineering ranked 7th, with a 2% growth rate, as the need for oil and gas extraction drives some demand.

Renewable Energy Engineering at number 6, with a robust 15% growth rate, reflecting the global shift towards sustainable energy sources.

Robotics Engineering in 5th place, with a 9% growth rate, due to increasing use of robots in manufacturing, healthcare, and defense.

Data Engineering secures the 4th spot, highlighting the critical role of data in the digital age, with a 35% growth rate for data scientists.

Cyber Security Engineering at number 3, with a 32% growth rate, as digital security becomes increasingly relevant.

Software Engineering in 2nd place, the cornerstone of the tech industry, with a 26% growth rate due to expansion in AI, IoT, and automation.

Artificial Intelligence Engineering at number 1, with a staggering 73% growth rate, shaping the future of technology.

The presenter's top three degrees are AI Engineering and related fields, biomedical engineering, and agricultural engineering due to increasing global demands.