|
23
|
|
|
PRIMARY MOTIVATION
My office gets involved with the "First Robotics" competitions and one thing that lingers year to year is the students typically have no preparation for doing even simple programming as part of the public schools system. While the science classes provide some basic grasp of mechanical and electrical concepts, by in large computer programming gets no coverage from the curriculum. (This my be different in other areas of the country/world.) What makes it worse is there is only a short period of time you have to prepare the student's and help them design the robot.
Talking to some professors from local colleges, it's a problem because you can't assume even the most basic understanding for freshman CS majors. Languages like Python, Lua and BASIC are simple enough for at least high school level students, if not younger.
SCOPE
So how do you get public schools to support a programming, at least to the level of "Try it in BASIC" examples that used to be at the end of a chapter in my Algebra book?
At least enough to prepare them for event's such as the FIRST Robotic competitions. Which the primary objectives are to teach problem solving and team work, and to possible foster and an interest in Math, Science and Engineering in general. (Not force feed to them, as some people her seem to be implying.)
Edit: Why teach kids:
(Since 2000 CS enrollment in US colleges has decreased by 70% while college enrollment has increased, this is a PROBLEM.)
Saying there is no value in teaching someone programming in Jr./High school because they might think "they know programming." Is like saying there's no value in teaching High school science and physics, because they might decide they "know physics." Leading to abuse like: "I passed a high school physics class, I'm going to develop a Unified Quantum Gravitational Theory."
Better Prepared students are better students.
Instead it would allows college programs to raise the bar on the entry level courses, allowing students to be weeded out based on their understanding of more advanced material. Plus people who did poorly in that in topic in High school aren't as likely to say "I think there's money in computer's so I'll computer science." Plus if people take it in high school and decide THEN that it's not for them, it's better than them wasting their money to PAY a college to figure that out. The result is that people who take the degree are more likely to succeed and be there for the RIGHT reasons. (i.e. It's what they REALLY want to do. And that's REALLY the key to being good at anything.)
Programming is like anything else, the more practice and genuine interest you have the better you get. If you start them later, they get less practice. The earlier give them the opportunity to start, the more practice they will get. All other things equal, the more practice the better the programmer.
|
|
|
|
|
22
|
|
|
PRIMARY MODIVATIONMOTIVATION
My office gets involved with the "First Robotics" competitions and one thing that lingers year to year is the students typically have no preparation for doing even simple programming as part of the public schools system. While the science classes provide some basic grasp of mechanical and electrical concepts, by in large computer programming gets no coverage from the curriculum. (This my be different in other areas of the country/world.) What makes it worse is there is only a short period of time you have to prepare the student's and help them design the robot.
Talking to some professors from local colleges, it's a problem because you can't assume even the most basic understanding for freshman CS majors. Languages like Python, Lua and BASIC are simple enough for at least high school level students, if not younger.
SCOPE
So how do you get public schools to support a programming, at least to the level of "Try it in BASIC" examples that used to be at the end of a chapter in my Algebra book?
At least enough to prepare them for event's such as the FIRST Robotic competitions. Which the primary objectives are to teach problem solving and team work, and to possible foster and interest in Math, Science and Engineering in general. (Not force feed to them, as some people here her seem to be implying.Note the work "encourage.")
Edit: Why teach kids:
(Since 2000 CS enrollment in US colleges has decreased by 70% while college enrollment has increased, this is a PROBLEM.)
Saying there is no value in teaching someone programming in Jr./High school because they might think "they know programming." Is like saying there's no value in teaching High school science and physics, because they might decide they "know physics." Leading to abuse like: "I passed a high school physics class, I'm going to develop a Unified Quantum Gravitational Theory."
Better Prepared students are better students.
Instead it would allows college programs to raise the bar on the entry level courses, allowing students to be weeded out based on their understanding of more advanced material. Plus people who did poorly in that in topic in High school aren't as likely to say "I think there's money in computer's so I'll computer science." Plus if people take it in high school and decide THEN that it's not for them, it's better than them wasting their money to PAY a college to figure that out. The result is that people who take the degree are more likely to succeed and be there for the RIGHT reasons. (i.e. It's what they REALLY want to do. And that's REALLY the key to being good at anything.)
Programming is like anything else, the more practice and genuine interest you have the better you get. If you start them later, they get less practice. The earlier give them the opportunity to start, the more practice they will get. All other things equal, the more practice the better the programmer.
|
|
|
|
|
21
|
|
|
PRIMARY MODIVATION
My office gets involved with the "First Robotics" competitions and one thing that lingers year to year is the students typically have no preparation for doing even simple programming as part of the public schools system. While the science classes provide some basic grasp of mechanical and electrical concepts, by in large computer programming gets no coverage from the curriculum. (This my be different in other areas of the country/world.) What makes it worse is there is only a short period of time you have to prepare the student's and help them design the robot.
Talking to some professors from local colleges, it's a problem because you can't assume even the most basic understanding for freshman CS majors. Languages like Python, Lua and BASIC are simple enough for at least high school level students, if not younger.
SCOPE
So how do you get public schools to support a programming, at least to the level of "Try it in BASIC" examples that used to be at the end of a chapter in my Algebra book?
At least enough to prepare them for event's such as the FIRST Robotic competitions. Which the primary objectives are to teach problem solving and team work, and to possible foster and interest in Math, Science and Engineering in general. (Not force feed to them, as some people here seem to be implying. Note the work "encourage.")
Edit: Why teach kids:
(Since 2000 CS enrollment in US colleges has decreased by 70% while college enrollment has increased, this is a PROBLEM.)
Saying there is no value in teaching someone programming in Jr./High school because they might think "they know programming." Is like saying there's no value in teaching High school science and physics, because they might decide they "know physics." Leading to abuse like: "I passed a high school physics class, I'm going to develop a Unified Quantum Gravitational Theory."
Better Prepared students are better students.
Instead it would allows college programs to raise the bar on the entry level courses, allowing students to be weeded out based on their understanding of more advanced material. Plus people who did poorly in that in topic in High school aren't as likely to say "I think there's money in computer's so I'll computer science." Plus if people take it in high school and decide THEN that it's not for them, it's better than them wasting their money to PAY a college to figure that out. The result is that people who take the degree are more likely to succeed and be there for the RIGHT reasons. (i.e. It's what they REALLY want to do. And that's REALLY the key to being good at anything.)
Programming is like anything else, the more practice and genuine interest you have the better you get. If you start them later, they get less practice. The earlier give them the opportunity to start, the more practice they will get. All other things equal, the more practice the better the programmer.
|
|
|
|
20
|
|
|
My office gets involved with the "First Robotics" competitions and one thing that lingers year to year is the students typically have no preparation for doing even simple programming as part of the public schools system. While the science classes provide some basic grasp of mechanical and electrical concepts, by in large computer programming get's gets no coverage from the curriculum. (This my be different in other areas of the country/world.) What makes it worse is there is only a short period of time you have to prepare the student's and help them design the robot.
Talking to some professors from local colleges, it's a problem because you can't assume even the most basic understanding for freshman CS majors. Languages like Python, Lua and BASIC are simple enough for at least highschool high school level students, if not younger.
So how do you get public schools to support a programming, at least to the level of "Try it in BASIC" examples that used to be at the end of a chapter in my Algebra book?
Edit: Why teach kids:
(Since 2000 CS enrollment in US colleges has decreased by 70% while college enrollment has increased, this is a PROBLEM.)
Saying there is no value in teaching someone programming in Jr./Highschool Jr./High school because they might think "they know programming." Is like saying there's no value in teaching Highschool High school science and physics, because they might decide they "know physics." Leading to abuse like: "I passed a high school physics class, I'm going to develop a Unified Quantum Gravitational Theory."
Better Prepared students are better students.
Instead it would allows college programs to raise the bar on the entry level courses, allowing students to be weeded out based on thier their understanding of more advanced material. Plus people who did poorly in that in topic in Highschool High school aren't as likely to say "I think there's money in computer's so I'll computer science." Plus if people take it in high school and decide THEN that it's not for them, it's better than them wasting their money to PAY a college to figure that out. The result is that people who take the degree are more likely to succeed and be there for the RIGHT reasons. (i.e. It's what they REALLY want to do. And that's REALLY the key to being good at anything.)
Programming is like anything else, the more practice and genuine interest you have the better you get. If you start them later, they get less practice. The earilier earlier give them the opportunity to start, the more practice they will get. All other things equal, the more practice the better the programmer.
|
|
|
|
|
19
|
|
|
Cleaned up - Back Edit: Why teach kids:(Since 2000 CS enrollment in US colleges has decreased by 70% while college enrollment has increased, this is a PROBLEM.) Saying there is no value in teaching someone programming in Jr./Highschool because they might think "they know programming." Is like saying there's no value in teaching Highschool science and physics, because they might decide they "know physics." Leading to abuse like: "I passed a high school physics class, I'm going to develop a Unified Quantum Gravitational Theory." Better Prepared students are better students. Instead it would allows college programs to raise the orininal intentbar on the entry level courses, allowing students to be weeded out based on thier understanding of more advanced material. Plus people who did poorly in that in topic in Highschool aren't as likely to say "I think there's money in computer's so I'll computer science." Plus if people take it in high school and decide THEN that it's not for them, it's better than them wasting their money to PAY a college to figure that out. The result is that people who take the degree are more likely to succeed and be there for the RIGHT reasons. (i.e. It's what they REALLY want to do. And that's REALLY the key to being good at anything.) Programming is like anything else, the more practice and genuine interest you have the better you get. If you start them later, they get less practice. The earilier give them the opportunity to start, the more practice they will get. All other things equal, the more practice the better the programmer.
|
|
|
|
|
18
|
|
|
Edit: Why teach kids:(Since 2000 CS enrollment in US colleges has decreased by 70% while college enrollment has increased, this is a PROBLEM.) Saying there is no value in teaching someone programming in Jr./Highschool because they might think "they know programming." Is like saying there's no value in teaching Highschool science and physics, because they might decide they "know physics." Leading to abuse like: "I passed a high school physics class, I'm going to develop a Unified Quantum Gravitational Theory." Better Prepared students are better students. Instead it would allows college programs to raise the bar on the entry level courses, allowing students to be weeded out based on thier understanding of more advanced material. Plus people who did poorly in that in topic in Highschool aren't as likely to say "I think there's money in computer's so I'll computer science." Plus if people take it in high school and decide THEN that it's not for them, it's better than them wasting their money to PAY a college to figure that out. The result is that people who take the degree are more likely to succeed and be there for the RIGHT reasons. (i.e. It's what they REALLY want to do. And that's REALLY the key to being good at anything.) Programming is like anything else, the more practice and genuine interest you have the better you get. If you start them later, they get less practice. The earilier give them the opportunity Cleaned up - Back to start, the more practice they will get. All other things equal, the more practice the better the programmer. orininal intent
|
|
|
|
|
17
|
|
|
My office gets involved with the "First Robotics" competitions and one thing that lingers year to year is the students typically have no preparation for doing even simple programming as part of the public schools system. While the science classes provide some basic grasp of mechanical and electrical concepts, by in large computer programming get's no coverage from the curriculum. (This my be different in other areas of the country/world.) What makes it worse is there is only a short period of time you have to prepare the student's and help them design the robot.
Talking to some professors from local colleges, it's a problem because you can't assume even the most basic understanding for freshman CS majors. Languages like Python, Lua and BASIC are simple enough for at least highschool level students, if not younger.
So how do you get public schools to support a programming, at least to the level of "Try it in BASIC" examples that used to be at the end of a chapter in my Algebra book?
Edit: Why teach kids:
(Since 2000 CS enrollment in US colleges has decreased by 70% while college enrollment has increased, this is a PROBLEM.)
Saying there is no value in teaching someone programming in Jr./Highschool because they might think "they know programming." Is like saying there's no value in teaching Highschool science and physics, because they might decide they "know physics." Leading to abuse like: "I passed a high school physics class, I'm going to develop a Unified Quantum Gravitational Theory."
Better Prepaired Prepared students are better students.
Instead it would allows college programs to raise the bar on the entry level courses, allowing students to be weeded out based on thier understanding of more advanced material. Plus people who did poorly in that in topic in Highschool aren't as likely to say "I think there's money in computer's so I'll computer science." Plus if people take it in high school and decide THEN that it's not for them, it's better than them wasting their money to PAY a college to figure that out. The result is that people who take the degree are more likely to succeed and be there for the RIGHT reasons. (i.e. It's what they REALLY want to do. And that's REALLY the key to being good at anything.)
Programming is like anything else, the more practice and genuine interest you have the better you get. If you start them later, they get less practice. The earilier give them the opportunity to start, the more practice they will get. All other things equal, the more practice the better the programmer.
|
|
|
|
|
16
|
|
|
My office gets involved with the "First Robotics" competitions and one thing that lingers year to year is the students typically have no preparation for doing even simple programming as part of the public schools system. While the science classes provide some basic grasp of mechanical and electrical concepts, by in large computer programming get's no coverage from the curriculum. (This my be different in other areas of the country/world.) What makes it worse is there is only a short period of time you have to prepare the student's and help them design the robot.
Talking to some professors from local colleges, it's a problem because you can't assume even the most basic understanding for freshman CS majors. Languages like Python, Lua and BASIC are simple enough for at least highschool level students, if not younger.
So how do you get public schools to support a programming, at least to the level of "Try it in BASIC" examples that used to be at the end of a chapter in my Algebra book?
Edit: Why teach kids:
(Since 2000 CS enrollment in US colleges has decreased by 70%70% while college enrollment has increased, this is a PROBLEM.)
Saying there is no value in teaching someone programming in Jr./Highschool because they might think "they know programming." Is like saying there's no value in teaching Highschool science and physics, because they might decide they "know physics." Leading to abuse like: "I passed a high school physics class, I'm going to develop a Unified Quantum Gravitational Theory."
Better Prepaired students are better students.
Instead it would allows college programs to raise the bar on the entry level courses, allowing students to be weeded out based on thier understanding of more advanced material. Plus people who did poorly in that in topic in Highschool aren't as likely to say "I think there's money in computer's so I'll computer science." Plus if people take it in high school and decide THEN that it's not for them, it's better than them wasting their money to PAY a college to figure that out. The result is that people who take the degree are more likely to succeed and be there for the RIGHT reasons. (i.e. It's what they REALLY want to do. And that's REALLY the key to being good at anything.)
Programming is like anything else, the more practice and genuine interest you have the better you get. If you start them later, they get less practice. The earilier give them the opportunity to start, the more practice they will get. All other things equal, the more practice the better the programmer.
|
|
|
|
|
15
|
|
|
My office gets involved with the "First Robotics" competitions and one thing that lingers year to year is the students typically have no preparation for doing even simple programming as part of the public schools system. While the science classes provide some basic grasp of mechanical and electrical concepts, by in large computer programming get's no coverage from the curriculum. (This my be different in other areas of the country/world.) What makes it worse is there is only a short period of time you have to prepare the student's and help them design the robot.
Talking to some professors from local colleges, it's a problem because you can't assume even the most basic understanding for freshman CS majors. Languages like Python, Lua and BASIC are simple enough for at least highschool level students, if not younger.
So how do you get public schools to support a programming, at least to the level of "Try it in BASIC" examples that used to be at the end of a chapter in my Algebra book?
Edit: Why teach kids:
(Since 2000 CS enrollment in US colleges has decreased by 70%, this is a PROBLEM.)
Saying there is no value in teaching someone programming in Jr./Highschool because they might think "they know programming." Is like saying there's no value in teaching Highschool science and physics, because they might decide they "know physics." Leading to abuse like: "I passed a high school physics class, I'm going to develop a Unified Quantum Gravitational Theory."
Better Prepaired students are better students.
Instead it would allows college programs to raise the bar on the entry level courses, allowing students to be weeded out based on thier understanding of more advanced material. Plus people who did poorly in that in topic in Highschool aren't as likely to say "I think there's money in computer's so I'll computer science." Plus if people take it in high school and decide THEN that it's not for them, it's better than them wasting their money to PAY a college to figure that out. The result is that people who take the degree are more likely to succeed and be there for the RIGHT reasons. (i.e. It's what they REALLY want to do. And that's REALLY the key to being good at anything.)
Programming is like anything else, the more practice and genuine interest you have the better you get. If you start them later, they get less practice. The earilier give them the opportunity to start, the more practice they will get. All other things equal, the more practice the better the programmer.
Edit:
There is a great link to a lecture on Thr4wn Answer, click on the "Last Lecture" link. There are many other good suggestions, but that lecture is fantastic.
|
|
|
|
|
14
|
|
|
How do we, as a community, help encourage programming in public schools? (Or state Schools for the UKers.)
My office gets involved with the "First Robotics" competitions and one thing that lingers year to year is the students typically have no preparation for doing even simple programming as part of the public schools system. While the science classes provide some basic grasp of mechanical and electrical concepts, by in large computer programming get's no coverage from the curriculum. (This my be different in other areas of the country/world.) What makes it worse is there is only a short period of time you have to prepare the student's and help them design the robot.
Talking to some professors from local colleges, it's a problem because you can't assume even the most basic understanding for freshman CS majors. Languages like Python, Lua and BASIC are simple enough for at least highschool level students, if not younger.
So how do you get public schools to support a programming, at least to the level of "Try it in BASIC" examples that used to be at the end of a chapter in my Algebra book?
Edit: Why teach kids:
Saying there is no value in teaching someone programming in Jr./Highschool because they might think "they know programming." Is like saying there's no value in teaching Highschool science and physics, because they might decide they "know physics." Leading to abuse like: "I passed a high school physics class, I'm going to develop a Unified Quantum Gravitational Theory."
Instead it would allows college programs to raise the bar on the entry level courses, allowing students to be weeded out based on thier understanding of more advanced material. Plus people who did poorly in that in topic in Highschool aren't as likely to say "I think there's money in computer's so I'll computer science." Plus if people take it in high school and decide THEN that it's not for them, it's better than them wasting their money to PAY a college to figure that out. The result is that people who take the degree are more likely to succeed and be there for the RIGHT reasons. (i.e. It's what they REALLY want to do. And that's REALLY the key to being good at anything.)
Programming is like anything else, the more practice and genuine interest you have the better you get. If you start them later, they get less practice. The earilier give them the opportunity to start, the more practice they will get. All other things equal, the more practice the better the programmer.
Edit:
There is a great link to a lecture on Thr4wn Answer, click on the "Last Lecture" link. There are many other good suggestions, but that lecture is inspirationalfantastic.
|
|
|
|
|
13
|
|
|
Edit: In response to Spencer RuportWhy teach kids: Instead it would allows college programs to raise the bar on the entry level courses, allowing students to be weeded out based on thier understanding of more advanced material. Plus people who did poorly in that in topic in Highschool aren't as likely to say "I think there's money in computer's so I'll computer science." Plus if people take it in high school and decide THEN that it's not for them, it's better than them wasting thier their money to PAY a college to figure that out. The result is that people who take the degree are more likely to succeed and be there for the RIGHT reasons. Edit: In response to Spencer Ruport:We teach basic biology and health in Highschool. And people don't assume they can do brain surgery after getting an A in either of those courses. There are no analogs to health and biology in the school system for programming. Teaching basics of control structures such as "if,else, while, for, and until" and giving guidelines such as don't use globals (as a general rule, until i.e. It's what they know when to use them) and REALLY want to break up anything roughly bigger than a screen of text into multiple functions is not brain surgerydo. And those simple rules could make some one better programer than many graduates. There is really bad code written by CS graduates, and personally know a Master's Grad who asked me "what's wrong with this compiler?" because he couldn't get a simple array declearation to work. You will never eliminate bad programmers, but can you fix that's REALLY the education system such that someone with a degree is going key to be being good at least qualified to write software, which is not a garentee of the current system. BECAUSE they are learning elementry school level CS equivalants when they start CS. There is NO EXCUSE for a CS major to graduate without understanding pointers, if they don't they shouldn't pass period. This applies to many topics which CS majors graduate with out understanding.anything.) Programming is like anything else, the more practice and genuine interest you have the better you get. If you start them later, they get less practice. The earilier give them the oppertunityopportunity to start, the more practice they will get. All other things equal, the more practice the better the programmer. Edit: There is a great link to a lecture on Thr4wn Answer, click on the "Last Lecture" link. There are many other good suggestions, but that lecture is inspirational.
|
|
|
|
|
12
|
|
|
My office gets involved with the "First Robotics" competitions and one thing that lingers year to year is the students typically have no preparation for doing even simple programming as part of the public schools system. While the science classes provide some basic grasp of mechanical and electrical concepts, by in large computer programming get's no coverage from the curriculum. (This my be different in other areas of the country/world.) What makes it worse is there is only a short period of time you have to prepare the student's and help them design the robot.
Talking to some professors from local colleges, it's a problem because you can't assume even the most basic understanding for freshman CS majors. Languages like Python, Lua and BASIC are simple enough for at least highschool level students, if not younger.
So how do you get public schools to support a programming, at least to the level of "Try it in BASIC" examples that used to be at the end of a chapter in my Algebra book?
Edit: In response to Spencer Ruport:
Saying there is no value in teaching someone programming in Jr./Highschool because they might think "they know programming." Is like saying there's no value in teaching Highschool science and physics, because they might decide they "know physics." Leading to abuse like: "I passed a high school physics class, I'm going to develop a Unified Quantum Gravitational Theory."
Instead it would allows college programs to raise the bar on the entry level courses, allowing students to be weeded out based on thier understanding of more advanced material. Plus people who did poorly in that in topic in Highschool aren't as likely to say "I think there's money in computer's so I'll computer science." Plus if people take it in high school and decide THEN that it's not for them, it's better than them wasting thier money to PAY a college to figure that out. The result is that people who take the degree are more likely to succeed and be there for the RIGHT reasons.
Edit: In response to Spencer Ruport:
We teach basic biology and health in Highschool. And people don't assume they can do brain surgery after getting an A in either of those courses. There are no analogs to health and biology in the school system for programming. Teaching basics of control structures such as "if,else, while, for, and until" and giving guidelines such as don't use globals (as a general rule, until they know when to use them) and to break up anything roughly bigger than a screen of text into multiple functions is not brain surgery. And those simple rules could make some one better programer than many graduates.
There is really bad code written by CS graduates, and personally know a Master's Grad who asked me "what's wrong with this compiler?" because he couldn't get a simple array declearation to work. You will never eliminate bad programmers, but can you fix the education system such that someone with a degree is going to be at least qualified to write software, which is not a garentee of the current system. BECAUSE they are learning elementry school level CS equivalants when they start CS. There is NO EXCUSE for a CS major to graduate without understanding pointers, if they don't they shouldn't pass period. This applies to many topics which CS majors graduate with out understanding.
Programming is like anything else, the more practice you have the better you get. If you start them later, they get less practice. The earilier give them the oppertunity to start, the more practice they will get. All other things equal, the more practice the better the programmer.
|
|
|
|
|
11
|
|
|
My office gets involved with the "First Robotics" competitions and one thing that lingers year to year is the students typically have no preparation for doing even simple programming as part of the public schools system. While the science classes provide some basic grasp of mechanical and electrical concepts, by in large computer programming get's no coverage from the curriculum. (This my be different in other areas of the country/world.) What makes it worse is there is only a short period of time you have to prepare the student's and help them design the robot.
Talking to some professors from local colleges, it's a problem because you can't assume even the most basic understanding for freshman CS majors. Languages like Python, Lua and BASIC are simple enough for at least highschool level students, if not younger.
So how do you get public schools to support a programming, at least to the level of "Try it in BASIC" examples that used to be at the end of a chapter in my Algebra book?
Edit: In response to Spencer Ruport:
Saying there is no value in teaching someone programming in Jr./Highschool because they might think "they know programming." Is like saying there's no value in teaching Highschool science and physics, because they might decide they "know physics." Leading to abuse like: "I passed a high school physics class, I'm going to develop a Unified Quantum Gravitational Theory."
Instead it would allows college programs to raise the bar on the entry level courses, allowing students to be weeded out based on thier understanding of more advanced material. Plus people who did poorly in that in topic in Highschool aren't as likely to say "I think there's money in computer's so I'll computer science." Plus if people take it in high school and decide THEN that it's not for them, it's better than them wasting thier money to PAY a college to figure that out. The result is that people who take the degree are more likely to succeed and be there for the RIGHT reasons.
Edit: In response to Spencer Ruport:
We teach basic biology and health in Highschool. And people don't assume they can do brain surgery after getting an A in either of those courses. There are no analogs to health and biology in the school system for programming.
There is really bad code written by CS graduates, and personally know a Master's Grad who asked me "what's wrong with this compiler?" because he couldn't get a simple array declearation to work. You will never eliminate bad programmers, but can you fix the education system such that someone with a degree is going to be at least qualified to write software, which is not a garentee of the current system. BECAUSE they are learning elementry school level CS equivalants when they start CS.
Programming is like anything else, the more practice you have the better you get. If you start them later, they get less practice. The earilier give them the oppertunity to start, the more practice they will get. All other things equal, the more practice the better the programmer.
|
|
|
|
|
10
|
|
|
My office gets involved with the "First Robotics" competitions and one thing that lingers year to year is the students typically have no preparation for doing even simple programming as part of the public schools system. While the science classes provide some basic grasp of mechanical and electrical concepts, by in large computer programming get's no coverage from the curriculum. (This my be different in other areas of the country/world.) What makes it worse is there is only a short period of time you have to prepare the student's and help them design the robot.
Talking to some professors from local colleges, it's a problem because you can't assume even the most basic understanding for freshman CS majors. Languages like Python, Lua and BASIC are simple enough for at least highschool level students, if not younger.
So how do you get public schools to support a programming, at least to the level of "Try it in BASIC" examples that used to be at the end of a chapter in my Algebra book?
Edit: In response to Spencer Ruport:
Saying there is no value in teaching someone programming in Jr./Highschool because they might think "they know programming." Is like saying there's no value in teaching Highschool science and physics, because they might decide they "know physics." Leading to abuse like: "I passed a high school physics class, I'm going to develop a Unified Quantum Gravitational Theory."
Instead it would allows college programs to raise the bar on the entry level courses, allowing students to be weeded out based on thier understanding of more advanced material. Plus people who did poorly in that in topic in Highschool aren't as likely to say "I think there's money in computer's so I'll computer science." Plus if people take it in high school and decide THEN that it's not for them, it's better than them wasting thier money to PAY a college to figure that out. The result is that people who take the degree are more likely to succeed and be there for the RIGHT reasons.
Edit: In response to Spencer Ruport:
We teach basic biology and health in Highschool. And people don't assume they can do brain surgery after getting an A in either of those courses. There are no analogs to health and biology in the school system for programming.
There is really bad code written by CS graduates, and personally know a Master's Grad who asked me "what's wrong with this compiler?" because he couldn't get a simple array declearation to work. You will never eliminate bad programmers, but can you fix the education system such that someone with a degree is going to be at least qualified to write software, which is not a garentee of the current system. BECAUSE they are learning elementry school level CS equivalants when they start CS.
|
|
|
|
|
9
|
|
|
My office gets involved with the "First Robotics" competitions and one thing that lingers year to year is the students typically have no preparation for doing even simple programming as part of the public schools system. While the science classes provide some basic grasp of mechanical and electrical concepts, by in large computer programming get's no coverage from the curriculum. (This my be different in other areas of the country/world.) What makes it worse is there is only a short period of time you have to prepare the student's and help them design the robot.
Talking to some professors from local colleges, it's a problem because you can't assume even the most basic understanding for freshman CS majors. Languages like Python, Lua and BASIC are simple enough for at least highschool level students, if not younger.
So how do you get public schools to support a programming, at least to the level of "Try it in BASIC" examples that used to be at the end of a chapter in my Algebra book?
Edit: In response to Spencer Ruport:
Saying there is no value in teaching someone programming in Jr./Highschool because they might think "they know programming." Is like saying there's no value in teaching Highschool science and physics, because they might decide they "know physics." Leading to abuse like: "I passed a high school physics class, I'm going to develop a Unified Quantum Gravitational Theory."
Instead it would allows college programs to raise the bar on the entry level courses, allowing students to be weeded out based on thier understanding of more advanced material. Plus people who did poorly in that in topic in Highschool aren't as likely to say "I think there's money in computer's so I'll computer science." Plus if people take it in high school and decide THEN that it's not for them, it's better than them wasting thier money to PAY a college to figure that out. The result is that people who take the degree are more likely to succeed and be there for the RIGHT reasons.
Edit: In response to Spencer Ruport:
There is really bad code written by CS graduates, and personally know a Master's Grad who asked me "what's wrong with this compiler?" because he couldn't get a simple array declearation to work. I want to up the bar, so those types of students don't just "get passed" because the entry levels class are SOOOOOO easy, that they dumb down the major. You will never eliminate bad programmers, but can you fix the education system such that someone with a degree is going to be at least qualified to write software, which is not a garentee of the current system.
|
|
|
|
|
8
|
|
|
My office gets involved with the "First Robotics" competitions and one thing that lingers year to year is the students typically have no preparation for doing even simple programming as part of the public schools system. While the science classes provide some basic grasp of mechanical and electrical concepts, by in large computer programming get's no coverage from the curriculum. (This my be different in other areas of the country/world.) What makes it worse is there is only a short period of time you have to prepare the student's and help them design the robot.
Talking to some professors from local colleges, it's a problem because you can't assume even the most basic understanding for freshman CS majors. Languages like Python, Lua and BASIC are simple enough for at least highschool level students, if not younger.
So how do you get public schools to support a programming, at least to the level of "Try it in BASIC" examples that used to be at the end of a chapter in my Algebra book?
Edit: In response to Spencer Ruport:
Saying there is no value in teaching someone programming in Jr./Highschool because they might think "they know programming." Is like saying there's no value in teaching Highschool science and physics, because they might decide they "know physics." Leading to abuse like: "I passed a high school physics class, I'm going to develop a Unified Quantum Gravitational Theory."
Instead it would allows college programs to raise the bar on the entry level courses, allowing students to be weeded out based on thier understanding of more advanced material. Plus people who did poorly in that in topic in Highschool aren't as likely to say "I think there's money in computer's so I'll computer science." Plus if people take it in high school and decide THEN that it's not for them, it's better than them wasting thier money to PAY a college to figure that out. The result is that people who take the degree are more likely to succeed and be there for the RIGHT reasons.
Edit: In response to Spencer Ruport:
There is really bad code written by CS graduates, and personally know a Master's Grad who asked me "what's wrong with this compiler?" because he couldn't get a simple array declearation to work. I want to up the bar, so those types of students don't just "get passed" because the entry levels class are SOOOOOO easy, that they dumb down the major. You will never eliminate bad programmers, but you fix the education system such that someone with a degree is going to be at least qualified to write software, which is not a garentee of the current system.
|
|
|
|
|
7
|
|
|
|
|
|
|
|
|
6
|
|
|
My office gets involved with the "First Robotics" competitions and one thing that lingers year to year is the students typically have no preparation for doing even simple programming as part of the public schools system. While the science classes provide some basic grasp of mechanical and electrical concepts, by in large computer programming get's no coverage from the curriculum. (This my be different in other areas of the country/world.) What makes it worse is there is only a short period of time you have to prepare the student's and help them design the robot.
Talking to some professors from local colleges, it's a problem because you can't assume even the most basic understanding for freshman CS majors. Languages like Python, Lua and BASIC are simple enough for at least highschool level students, if not younger.
So how do you get public schools to support a programming, at least to the level of "Try it in BASIC" examples that used to be at the end of a chapter in my Algebra book?
Edit: In response to Spencer Ruport:
Saying there is no value in teaching someone programming in Jr./Highschool because they might think "they know programming." Is like saying there's no value in teaching Highschool science and physics, because they might decide they "know physics." Leading to abuse like: "I passed a high school physics class, I'm going to develop a Unified Quantum Gravitational Theory."
Instead it would allows college programs to raise the bar on the entry level courses, allowing students to be weeded out based on thier understanding of more advanced material. Plus people who did poorly in that in topic in Highschool aren't as likely to say "I think there's money in computer's so I'll computer science." Plus if people take it in high school and decide THEN that it's not for them, it's better than them wasting thier money to PAY a college to figure that out. The result is that people who take the degree are more likely to succeed and be there for the RIGHT reasons.
|
|
|
|
|
5
|
|
|
My office gets involved with the "First Robotics" competitions and one thing that lingers year to year is the students typically have no preparation for doing even simple programming as part of the public schools system. While the science classes provide some basic grasp of mechanical and electrical concepts, by in large computer programming get's no coverage from the curriculum. (This my be different in other areas of the country/world.) What makes it worse is there is only a short period of time you have to prepare the student's and help them design the robot.
Talking to some professors from local colleges, it's a problem because you can't assume even the most basic understanding for freshman CS majors. Languages like Python, Lua and BASIC are simple enough for at least highschool level students, if not younger.
So how do you get public schools to support a programming, at least to the level of "Try it in BASIC" examples that used to be at the end of a chapter in my Algebra book?
Edit:
Saying there is no value in teaching someone programming in Jr./Highschool because they might think "they know programming." Is like saying there's no value in teaching Highschool science and physics, because they might decide they "know physics." Leading to abuse like: "I passed a high school physics class, I'm going to develop a Unified Quantum Gravitational Theory."
Instead it would allows college programs to raise the bar on the entry level courses, allowing them students to be weed weeded out based on thier understanding of more advanced matterialmaterial. Plus people who did poorly in that in topic in Highschool aren't as like likely to say "I think there's money in computer's so I'll computer science." Plus if people take it in high school and decide THEN that it's not for them, it's better than them wasting thier money to PAY a college to figure that out. The result is that people who take the degree are more likely to succeed and be there for the RIGHT reasons.
|
|
|
|
|
4
|
|
|
My office gets involved with the "First Robotics" competitions and one thing that lingers year to year is the students typically have no preparation for doing even simple programming as part of the public schools system. While the science classes provide some basic grasp of mechanical and electrical concepts, by in large computer programming get's no coverage from the curriculum. (This my be different in other areas of the country/world.) What makes it worse is there is only a short period of time you have to prepare the student's and help them design the robot.
Talking to some professors from local colleges, it's a problem because you can't assume even the most basic understanding for freshman CS majors. Languages like Python, Lua and BASIC are simple enough for at least highschool level students, if not younger.
So how do you get public schools to support a programming, at least to the level of "Try it in BASIC" examples that used to be at the end of a chapter in my Algebra book?
Edit:
Saying there is no value in teaching someone programming in Jr./Highschool because they might think "they know programming." Is like saying there's no value in teaching Highschool science and physics, because they might decide they "know physics." Leading to abuse like: "I passed a high school physics class, I'm going to develop a Unified Quantum Gravitational Theory."
Instead it would allows college programs to raise the bar on the entry level courses, allowing them to be weed out based on thier understanding of more advanced matterial. Plus people who did poorly in that in topic in Highschool aren't as like to say "I think there's money in computer's so I'll computer science."
|
|
|
|
|
3
|
|
|
How do we, as a community, help encourage programming in public schools?
|
|
|
| |
|
Post Made Community Wiki by NoMoreZealots
|
|
|
|
|
|
|
|
2
|
|
|
How do we as a community help incurage encourage programming in public schools?
|
|
|
|
|
1
|
|
|
How do we as a community help incurage programming in public schools?
My office gets involved with the "First Robotics" competitions and one thing that lingers year to year is the students typically have no preparation for doing even simple programming as part of the public schools system. While the science classes provide some basic grasp of mechanical and electrical concepts, by in large computer programming get's no coverage from the curriculum. (This my be different in other areas of the country/world.) What makes it worse is there is only a short period of time you have to prepare the student's and help them design the robot.
Talking to some professors from local colleges, it's a problem because you can't assume even the most basic understanding for freshman CS majors. Languages like Python, Lua and BASIC are simple enough for at least highschool level students, if not younger.
So how do you get public schools to support a programming, at least to the level of "Try it in BASIC" examples that used to be at the end of a chapter in my Algebra book?
|
|
|
