Generally speaking, math is needed in science, engineering (not just in robotics engineering), economics, finance, accounting, medicine, and practically everyday life. The difference would be whether you want to acquire more knowledge, to have a better understanding of the subject, to have a critical thinking instead of blindly accepting what others say, to advance in career and statue, to invent/innovate, to expand your boundaries, and to apply to practical uses. You don't have to be an expert in all branches in math, but it would surely be advantageous that you know some math and enough to do your job (or to pass the tests).
Mathematics is very important.
It's used to calculate the strength of the equipment being designed, how it will work (e.g. how fast will it go, how much power does it need, etc.) and so on.
It IS possible to do engineering without mathematics, but this is called "trial and error" rather than engineering per se. You make something and if it breaks you make it bigger.
Engineering is, basically, designing and making something that will do a given task as cheaply and efficiently as possible.
If you can't calculate things then you have to over-engineer everything so that you're sure it won't break in use - that results in using using more material and resources than necessary and gives a lager and more expensive item to the customer.
Robotics
Definitely. That robotics course is going to help you get more involved and learn more lower-level sort of stuff for that Computer Engineering Course.
As an engineer, calculations are performed which involves math. When pursuing a Masters degree in engineering, most courses are heavily math.
Voltage and current are important parameters in any electrical and electronic devices and apparatus, including robotics.
Robotics is the study of robots
National Engineering Robotics Contest was created in 2005.
Physics and Math are very important basics in Engineering.
mechanical engineering
yep!
These are the general math courses in an undergraduate program of Mechanical Engineering. Actually, these are also the math courses required in ANY undergraduate Engineering curriculum: Algebra Trigonometry Analytic Geometry Differential Calculus Integral Calculus Mutivariable Calculus Differential Equations
You'll certainly not have difficulty in physics and engineering BECAUSE you are good at math or economics; math, especially, is important in physics.
There are colleges and universities that have an engineering degree with a robotics option.
Shard center for innovation offers Robotics for kids is a great way to introduce kids to the world of science, technology, engineering, and math (STEM). It can also help them develop problem-solving skills, teamwork, and communication. There are many different ways to get kids involved in robotics, from building simple robots to competing in national competitions. scilindia.org/robotics-for-kids.php
maths has great important in electronics .
Robotics
Computer engineering is the one that most relates to robotics as compared to electronics and telecommunication and electronics engineering.
If you want to thoroughly understand robotics, you should seek a college degree in engineering, electronics or automation.