Path To College Mathematics
1st Edition
ISBN: 9780134654409
Author: Martin-Gay, K. Elayn, 1955-
Publisher: Pearson,
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Chapter E, Problem 13ES
Write en equation to describe each variation Use
varies directly as
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٣/١
B
msl
kd
180
Ka, Sin (1)
I sin ()
sin(30)
Sin (30)
اذا ميريد شرح الكتب بس 0 بالفراغ
3) Cos (30) 0.866
4) Rotating
5) Synchronous speed, 120 x 50
G
5005
1000
s = 1000-950
Copper bosses 5kW
Rotor input
5
0.05
: loo kw
6) 1
/0001
ined sove in peaper
I need a detailed
solution on paper
please
وه
اذا ميريد شرح الكتب فقط ١٥٠
DC
7) rotor
a
' (y+xlny + xe*)dx + (xsiny + xlnx + dy = 0.
Q1// Find the solution of: (
357
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R₂ = X2
2) slots per pole per phase 3/31
B. 180
msl
Kas
Sin (I)
1sin()
sin(30)
Sin (30)
اذا ميريد شرح الكتب بس 0 بالفراغ
3) Cos (30): 0.866
4) Rotating
5) Synchronous speeds
120×50
looo
G
1000-950
1000
Copper losses 5kw
Rotor input
5
loo kw
0.05
6) 1
اذا ميريد شرح الكتب فقط look
7) rotor
DC
ined sove in peaper
I need a detailed
solution on paper
please
0 64
Find the general solution of the following equations:
QI//y(4)-16y= 0.
Find the general solution of the following equations:
Q2ll yll-4y/ +13y=esinx.
R₂ = X2
2) slots per pole per phase = 3/31
B-180
60
msl
kd
Kas
Sin ()
2
I sin (6)
sin(30)
Sin (30)
اذا مريد شرح الكتب بس 0 بالفراغ
3
Cos (30) 0.866
4) Rotating
ined sove in peaper
5) Synchronous speed s
120×50
6
s = 1000-950
1000
Copper losses 5kw
Rotor input 5
0.05
6) 1
loo kw
اذا ميريد شرح الكتب فقط Look
7) rotov
DC
I need a detailed
solution on paper
please
0 64
Solve the following equations:
0
Q1// Find the solution of: (
y
• with y(0) = 1.
dx x²+y²
Chapter E Solutions
Path To College Mathematics
Ch. E - Write a direct variation equation, y=kx, that...Ch. E - Write a direct variation equation, y=kx, that...Ch. E - Write a direct variation equation, y=kx, that...Ch. E - Write a direct variation equation, y=kx, that...Ch. E - Write a direct variation equation, y=kx, that...Ch. E - Write a direct variation equation, y=kx, that...Ch. E - Write a direct variation equation, y=kx, that...Ch. E - Write a direct variation equation, y=kx, that...Ch. E - Write an inverse variation equation, y=kx, that...Ch. E - Write an inverse variation equation, y=kx, that...
Ch. E - Write an inverse variation equation, y=kx, that...Ch. E - Write an inverse variation equation, y=kx, that...Ch. E - Write en equation to describe each variation Use k...Ch. E - Write en equation to describe each variation Use k...Ch. E - Write en equation to describe each variation Use k...Ch. E - Write en equation to describe each variation Use k...Ch. E - Write en equation to describe each variation Use k...Ch. E - Write en equation to describe each variation Use k...Ch. E - Write en equation to describe each variation Use k...Ch. E - Write en equation to describe each variation Use k...Ch. E - Write en equation to describe each variation Use k...Ch. E - Write en equation to describe each variation Use...Ch. E - Solve. See Examples 2, 5, and 6. y varies directly...Ch. E - Solve. See Examples 2, 5, and 6. y varies directly...Ch. E - Solve. See Examples 2, 5, and 6. y varies directly...Ch. E - Solve. See Examples 2, 5, and 6. y varies directly...Ch. E - Solve. See Examples 2, 5, and 6. z varies directly...Ch. E - Solve. See Examples 2, 5, and 6. s varies directly...Ch. E - Solve. See Examples 2, 5, and 6. a varies...Ch. E - Solve. See Examples 2, 5, and 6. p varies...Ch. E - Solve. If needed, round money amounts to 2 decimal...Ch. E - Solve. If needed, round money amounts to 2 decimal...Ch. E - Solve. If needed, round money amounts to 2 decimal...Ch. E - Solve. If needed, round money amounts to 2 decimal...Ch. E - The distance a spring stretches varies directly...Ch. E - The weight of an object varies inversely as the...Ch. E - For a constant distance, the rate of travel varies...Ch. E - The distanced that an object fails is directly...Ch. E - The distance needed for a car to stop d, is...
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- R₂ = X2 2) slots per pole per phase = 3/3 1 B-180-60 msl Ka Sin (1) Isin () sin(30) Sin (30) اذا ميريد شرح الكتب بس 0 بالفراغ 3) Cos (30) 0.866 4) Rotating 5) Synchronous speed, 120 x 50 s = 1000-950 1000 Copper losses 5kw Rotor input 5 6) 1 0.05 G 50105 loo kw اذا ميريد شرح الكتب فقط look 7) rotov DC ined sove in peaper I need a detailed solution on paper please 064 2- A hot ball (D=15 cm ) is cooled by forced air T.-30°C, the rate of heat transfer from the ball is 460.86 W. Take for the air -0.025 Wim °C and Nu=144.89, find the ball surface temperature a) 300 °C 16 b) 327 °C c) 376 °C d) None か = 750 01arrow_forwardAnswer questions 8.3.3 and 8.3.4 respectively 8.3.4 .WP An article in Medicine and Science in Sports and Exercise [“Electrostimulation Training Effects on the Physical Performance of Ice Hockey Players” (2005, Vol. 37, pp. 455–460)] considered the use of electromyostimulation (EMS) as a method to train healthy skeletal muscle. EMS sessions consisted of 30 contractions (4-second duration, 85 Hz) and were carried out three times per week for 3 weeks on 17 ice hockey players. The 10-meter skating performance test showed a standard deviation of 0.09 seconds. Construct a 95% confidence interval of the standard deviation of the skating performance test.arrow_forward8.6.7 Consider the tire-testing data in Exercise 8.2.3. Compute a 95% tolerance interval on the life of the tires that has confidence level 95%. Compare the length of the tolerance interval with the length of the 95% CI on the population mean. Which interval is shorter? Discuss the difference in interpretation of these two intervals.arrow_forward
- 8.6.2 Consider the natural frequency of beams described in Exercise 8.2.8. Compute a 90% prediction interval on the diameter of the natural frequency of the next beam of this type that will be tested. Compare the length of the prediction interval with the length of the 90% CI on the population mean. 8.6.3 Consider the television tube brightness test described in Exercise 8.2.7. Compute a 99% prediction interval on the brightness of the next tube tested. Compare the length of the prediction interval with the length of the 99% CI on the population mean.arrow_forwardAnswer question S8 stepwisearrow_forwardAnswer questions 8.2.11 and 8.2.12 respectivelyarrow_forward
- 8.4.2 An article in Knee Surgery, Sports Traumatology, Arthroscopy [“Arthroscopic Meniscal Repair with an Absorbable Screw: Results and Surgical Technique” (2005, Vol. 13, pp. 273–279)] showed that only 25 out of 37 tears (67.6%) located between 3 and 6 mm from the meniscus rim were healed. a. Calculate a two-sided 95% confidence interval on the proportion of such tears that will heal. b. Calculate a 95% lower confidence bound on the proportion of such tears that will heal. 8.4.3 An article in the Journal of the American Statistical Association [“Illustration of Bayesian Inference in Normal Data Models Using Gibbs Sampling” (1990, Vol. 85, pp. 972–985)] measured the weight of 30 rats under experiment controls. Suppose that 12 were underweight rats. a. Calculate a 95% two-sided confidence interval on the true proportion of rats that would show underweight from the experiment. b. Using the point estimate of p obtained from the preliminary sample, what sample size is needed to be 95%…arrow_forward8.4.8 Use the data from Exercise 8.4.2 to compute the two-sided Agresti-Coull CI on the proportion of tears that heal. Compare and discuss the relationship of this interval to the one computed in Exercise 8.4.2.arrow_forwardAnswer questions 8.3.7 and 8.4.1 respectivelyarrow_forward
- Don't do 14. Please solve 19arrow_forward8.4.7 Use the data from Exercise 8.4.5 to compute the two-sided Agresti-Coull CI on the proportion of digits read correctly. Compare and discuss the relationship of this interval to the one computed in Exercise 8.4.5.arrow_forward8.6.5 Consider the fuel rod enrichment data described in Exercise 8.2.11. Compute a 90% prediction interval on the enrichment of the next rod tested. Compare the length of the prediction interval with the length of the 99% CI on the population mean.arrow_forward
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