A student wants to design and implement a Python program to convert any 6-bit unsigned binary number to its decimal equivalent. There are many ways of doing this, but here is their initial top-level decomposition: > Convert binary to decimal >> Input a list of six 1s and Os corresponding to the binary number to be converted >> Input a list of six column weightings consisting of powers of two >> Create a new list that contains the decimal values of each binary digit of 1 in the input list >> Add up the decimal values in the new list and print result

Database System Concepts
7th Edition
ISBN:9780078022159
Author:Abraham Silberschatz Professor, Henry F. Korth, S. Sudarshan
Publisher:Abraham Silberschatz Professor, Henry F. Korth, S. Sudarshan
Chapter1: Introduction
Section: Chapter Questions
Problem 1PE
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100%
15:59
← TMA 02
This question provides an opportunity for you to
demonstrate your understanding of the problem-solving
approach taught in TM112 and the patterns introduced
in Block 1 Part 4 and Block 2 Part 2. You can find an
overview of the problem-solving approach and a list of
all the patterns TM112 teaches in the Problem solving
and Python quick reference and you will need to refer to
this document as you work on the question.
N 63%
Important note: you do not need to get a working
program in part a. in order to attempt part b.
A student wants to design and implement a Python
program to convert any 6-bit unsigned binary number to
its decimal equivalent. There are many ways of doing
this, but here is their initial top-level decomposition:
> Convert binary to decimal
|||
>> Input a list of six 1s and Os
corresponding to the binary number to be
converted
>> Input a list of six column weightings
consisting of powers of two
>> Create a new list that contains the
decimal values of each binary digit of 1 in
the input list
>> Add up the decimal values in the new list
and print result
a. In this part of the question you will consider only
Transcribed Image Text:15:59 ← TMA 02 This question provides an opportunity for you to demonstrate your understanding of the problem-solving approach taught in TM112 and the patterns introduced in Block 1 Part 4 and Block 2 Part 2. You can find an overview of the problem-solving approach and a list of all the patterns TM112 teaches in the Problem solving and Python quick reference and you will need to refer to this document as you work on the question. N 63% Important note: you do not need to get a working program in part a. in order to attempt part b. A student wants to design and implement a Python program to convert any 6-bit unsigned binary number to its decimal equivalent. There are many ways of doing this, but here is their initial top-level decomposition: > Convert binary to decimal ||| >> Input a list of six 1s and Os corresponding to the binary number to be converted >> Input a list of six column weightings consisting of powers of two >> Create a new list that contains the decimal values of each binary digit of 1 in the input list >> Add up the decimal values in the new list and print result a. In this part of the question you will consider only
16:00 b
← TMA 02
This question provides an opportunity for you to
demonstrate your understanding of the problem-solving
approach taught in TM112 and the patterns introduced
in Block 1 Part 4 and Block 2 Part 2. You can find an
overview of the problem-solving approach and a list of
all the patterns TM112 teaches in the Problem solving
and Python quick reference and you will need to refer to
this document as you work on the question.
N 63%
Important note: you do not need to get a working
program in part a. in order to attempt part b.
A student wants to design and implement a Python
program to convert any 6-bit unsigned binary number to
its decimal equivalent. There are many ways of doing
this, but here is their initial top-level decomposition:
> Convert binary to decimal
|||
>> Input a list of six 1s and Os
corresponding to the binary number to be
converted
>> Input a list of six column weightings
consisting of powers of two
>> Create a new list that contains the
decimal values of each binary digit of 1 in
the input list
>> Add up the decimal values in the new list
and print result
a In this part of the question you will consider onlyv
Transcribed Image Text:16:00 b ← TMA 02 This question provides an opportunity for you to demonstrate your understanding of the problem-solving approach taught in TM112 and the patterns introduced in Block 1 Part 4 and Block 2 Part 2. You can find an overview of the problem-solving approach and a list of all the patterns TM112 teaches in the Problem solving and Python quick reference and you will need to refer to this document as you work on the question. N 63% Important note: you do not need to get a working program in part a. in order to attempt part b. A student wants to design and implement a Python program to convert any 6-bit unsigned binary number to its decimal equivalent. There are many ways of doing this, but here is their initial top-level decomposition: > Convert binary to decimal ||| >> Input a list of six 1s and Os corresponding to the binary number to be converted >> Input a list of six column weightings consisting of powers of two >> Create a new list that contains the decimal values of each binary digit of 1 in the input list >> Add up the decimal values in the new list and print result a In this part of the question you will consider onlyv
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