Let's assume you've got an experiment setup vhich includes a Sharp GP2D12 infrared distance sensor and a BasicX-24 microprocessor. The distance sensor uses a beam of infrared light to measure the distance from the sensor to an object; the sensor provides an output voltage that has a fairly complicated relationship to this distance. The BasicX processor converts the voltage from the sensor into a number between zero and one. Let us denote this number as x, and the distance (measured in inches) between the sensor and object as d. The relationship between x and d is 34.63 5.162 d = 2.54 Write a code / script which includes a FOR LOOP, computing the value of d for the values of x whose total number is equal to the sum of the digits in your student number using the built-in function generating linearly spaced vector in the inclusive range between zero and one and returning an output variable named SolSen in the format just as shown below: Notice: The number of rows below is equal to the the sum of the digits in your student number. Example figures Solsen - 0.1000 134.3063 0.1500 88.8601 0.2000 66.1370
Let's assume you've got an experiment setup vhich includes a Sharp GP2D12 infrared distance sensor and a BasicX-24 microprocessor. The distance sensor uses a beam of infrared light to measure the distance from the sensor to an object; the sensor provides an output voltage that has a fairly complicated relationship to this distance. The BasicX processor converts the voltage from the sensor into a number between zero and one. Let us denote this number as x, and the distance (measured in inches) between the sensor and object as d. The relationship between x and d is 34.63 5.162 d = 2.54 Write a code / script which includes a FOR LOOP, computing the value of d for the values of x whose total number is equal to the sum of the digits in your student number using the built-in function generating linearly spaced vector in the inclusive range between zero and one and returning an output variable named SolSen in the format just as shown below: Notice: The number of rows below is equal to the the sum of the digits in your student number. Example figures Solsen - 0.1000 134.3063 0.1500 88.8601 0.2000 66.1370
Computer Networking: A Top-Down Approach (7th Edition)
7th Edition
ISBN:9780133594140
Author:James Kurose, Keith Ross
Publisher:James Kurose, Keith Ross
Chapter1: Computer Networks And The Internet
Section: Chapter Questions
Problem R1RQ: What is the difference between a host and an end system? List several different types of end...
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Question
Course:
Introduction to MATLAB
Student Number:
180505005
![Let's assume you've got an experiment setup vhich includes a Sharp GP2D12 infrared distance
sensor and a BasicX-24 microprocessor.
The distance sensor uses a beam of infrared light to measure the distance from the sensor to an
object; the sensor provides an output voltage that has a fairly complicated relationship to this
distance. The BasicX processor converts the voltage from the sensor into a number between zero
and one. Let us denote this number as x, and the distance (measured in inches) between the
sensor and object as d. The relationship between x and d is
34.63
d = -
- 5.162
2.54
Write a code / script which includes a FOR LOOP, computing the value of d for the values of x
whose total number is equal to the sum of the digits in your student number using the built-in
function generating linearly spaced vector in the inclusive range between zero and one and
returning an output variable named SolSen in the format just as shown below:
Notice: The number of rows below is equal to the the sum of the digits in your student number.
Example fiqures
Solsen =
0.1000
134.3063
0.1500
88.8601
0.2000
66.1370](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F79f84904-dfe0-497d-8885-9067eb1640af%2F4be2b65f-d34f-469b-a930-62f2da2867f1%2Fldj6a5w_processed.png&w=3840&q=75)
Transcribed Image Text:Let's assume you've got an experiment setup vhich includes a Sharp GP2D12 infrared distance
sensor and a BasicX-24 microprocessor.
The distance sensor uses a beam of infrared light to measure the distance from the sensor to an
object; the sensor provides an output voltage that has a fairly complicated relationship to this
distance. The BasicX processor converts the voltage from the sensor into a number between zero
and one. Let us denote this number as x, and the distance (measured in inches) between the
sensor and object as d. The relationship between x and d is
34.63
d = -
- 5.162
2.54
Write a code / script which includes a FOR LOOP, computing the value of d for the values of x
whose total number is equal to the sum of the digits in your student number using the built-in
function generating linearly spaced vector in the inclusive range between zero and one and
returning an output variable named SolSen in the format just as shown below:
Notice: The number of rows below is equal to the the sum of the digits in your student number.
Example fiqures
Solsen =
0.1000
134.3063
0.1500
88.8601
0.2000
66.1370
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