You are building a robotic instrument that automatically dispenses some volume that you specify of stock solution into a reaction vessel. This instrument works by opening and closing a valve for a specific amount of time, and you would like to calibrate it by determining how much time the valve needs to be open to dispense a give volume. You calibrate this instrument by choosing a series of times and measuring the mass of water dispensed into a weigh boat on an analytical balance. Your results are below: Time (ms) Mass (g) 10 13.07 20 30 25.98 38.99 40 52.15 65.14 78.14 50 60
You are building a robotic instrument that automatically dispenses some volume that you specify of stock solution into a reaction vessel. This instrument works by opening and closing a valve for a specific amount of time, and you would like to calibrate it by determining how much time the valve needs to be open to dispense a give volume. You calibrate this instrument by choosing a series of times and measuring the mass of water dispensed into a weigh boat on an analytical balance. Your results are below: Time (ms) Mass (g) 10 13.07 20 30 25.98 38.99 40 52.15 65.14 78.14 50 60
MATLAB: An Introduction with Applications
6th Edition
ISBN:9781119256830
Author:Amos Gilat
Publisher:Amos Gilat
Chapter1: Starting With Matlab
Section: Chapter Questions
Problem 1P
Related questions
Question
second picture is what I got.
Please answer the problem below
2. Now that you know m and b, calculate the volume of solution dispensed
when the valve is open for 55.4 ms. Note you will need to look up the
density of water!
![delta
105000000
1.30282857
b
-0.0206667
sigmam
0.00239046
Chart Title
sigmab
0.09309493
90
y = 1.3028x - 0.0207
R= 1
80
70
Enter your data here
DO NOT CHANGE THESE VALUES, THEY ARE CALCULATED
60
sigmay
0.1
y
wx^2
WX
wy
wxy
**
50
10
13.07
100
1000
10000
1307
13070
40
20
25.98
0.1
100
2000
40000
2598
51960
30
30
38.99
0.1
100
3000
90000
3899
116970
20
40
52.15
0.1
100
4000
160000
5215
208600
10
50
65.14
0.1
100
5000
250000
6514
325700
10
20
30
40
50
60
70
60
78.14
0.1
100
6000
360000
7814
468840
1.302828571 -0.0206667 Slope
intercept
0.001525118 0.05939483 se(slope)
se(intercept)
0.999994519 0.06380028 r^2
sely)
se = standard errrors
729738.6995
4 F
df
2970.384001
0.0162819 ss reg
ss resid](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Ffc336536-ba01-4269-8774-733842a8c70d%2F09d13495-949b-4b7c-adc0-d073c488ccc0%2Ftskapxc_processed.png&w=3840&q=75)
Transcribed Image Text:delta
105000000
1.30282857
b
-0.0206667
sigmam
0.00239046
Chart Title
sigmab
0.09309493
90
y = 1.3028x - 0.0207
R= 1
80
70
Enter your data here
DO NOT CHANGE THESE VALUES, THEY ARE CALCULATED
60
sigmay
0.1
y
wx^2
WX
wy
wxy
**
50
10
13.07
100
1000
10000
1307
13070
40
20
25.98
0.1
100
2000
40000
2598
51960
30
30
38.99
0.1
100
3000
90000
3899
116970
20
40
52.15
0.1
100
4000
160000
5215
208600
10
50
65.14
0.1
100
5000
250000
6514
325700
10
20
30
40
50
60
70
60
78.14
0.1
100
6000
360000
7814
468840
1.302828571 -0.0206667 Slope
intercept
0.001525118 0.05939483 se(slope)
se(intercept)
0.999994519 0.06380028 r^2
sely)
se = standard errrors
729738.6995
4 F
df
2970.384001
0.0162819 ss reg
ss resid
![You are building a robotic instrument that automatically dispenses some volume
that you specify of stock solution into a reaction vessel. This instrument works by
opening and closing a valve for a specific amount of time, and you would like to
calibrate it by determining how much time the valve needs to be open to
dispense a give volume. You calibrate this instrument by choosing a series of
times and measuring the mass of water dispensed into a weigh boat on an
analytical balance. Your results are below:
Time (ms)
Mass (g)
10
13.07
20
25.98
30
38.99
40
52.15
50
65.14
60
78.14](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Ffc336536-ba01-4269-8774-733842a8c70d%2F09d13495-949b-4b7c-adc0-d073c488ccc0%2Ffqm9q2_processed.png&w=3840&q=75)
Transcribed Image Text:You are building a robotic instrument that automatically dispenses some volume
that you specify of stock solution into a reaction vessel. This instrument works by
opening and closing a valve for a specific amount of time, and you would like to
calibrate it by determining how much time the valve needs to be open to
dispense a give volume. You calibrate this instrument by choosing a series of
times and measuring the mass of water dispensed into a weigh boat on an
analytical balance. Your results are below:
Time (ms)
Mass (g)
10
13.07
20
25.98
30
38.99
40
52.15
50
65.14
60
78.14
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