One of the industrial robots designed by a leading producer of servomechanisms has four major components. Components’ reliabilities are .98, .95, .94 and .90 All of the components must function in order for the robot to operate effectively. a. Compute the reliability of the robot. b. Designers want to improve the reliability by adding a backup component. Due to spice limitations, only one backup can be added. The backup for any component will have the same reliability as the unit for which it is the backup. Which component should get the backup in order to achieve the highest reliability? c. If one backup with a reliability of .92 can be added to any one of the main components, which component should get it to obtain the highest overall reliability?

Question

Want to see more full solutions like this?

Answer 1

Textbook Question

Chapter 4.S, Problem 6P

One of the industrial robots designed by a leading producer of servomechanisms has four major components. Components’ reliabilities are .98, .95, .94 and .90 All of the components must function in order for the robot to operate effectively.

a. Compute the reliability of the robot.

b. Designers want to improve the reliability by adding a backup component. Due to spice limitations, only one backup can be added. The backup for any component will have the same reliability as the unit for which it is the backup. Which component should get the backup in order to achieve the highest reliability?

c. If one backup with a reliability of .92 can be added to any one of the main components, which component should get it to obtain the highest overall reliability?

a)

Expert Solution

Summary Introduction

To determine: The reliability of the robot.

Introduction:

Reliability:

Reliability can be termed as the measure of the capability of a product or any service to perform its intended job under a predetermined set of conditions. The product or service will yield the same results on the repeated trials. It is the degree of consistency of a measure.

Answer to Problem 6P

The reliability of the robot is 0.7876.

Explanation of Solution

Given information:

There are 4 components.
Reliabilities are 0.98, 0.95, 0.94, 0.90

Calculation of reliability of the robot:

The reliability is calculated by multiplying the probabilities of all the components.

Reliability=0.98×0.95×0.94×0.90=0.7876

Hence, the reliability of the robot is 0.7876.

b)

Expert Solution

Summary Introduction

To determine: The component that should get the backup.

Introduction:

Reliability:

Reliability can be termed as the measure of the capability of a product or any service to perform its intended job under a predetermined set of conditions. The product or service will yield the same results on the repeated trials. It is the degree of consistency of a measure.

Answer to Problem 6P

The component that should get the backup is component 4.

Explanation of Solution

Given information:

There are 4 components.
Reliabilities are 0.98, 0.95, 0.94, 0.90
Each backup will have the same reliability as the component.

Calculation of reliability of the robot:

The reliability is calculated by multiplying the probabilities of all the components.

Reliability=0.98×0.95×0.94×0.90=0.7876

Calculation of reliability of the system:

Component 1 and backup for component 1:

Reliability=0.98+[(1−0.98)×0.98]=0.98+[0.02×0.98]=0.98+0.0196=0.9996

Reliability of robot=0.9996×0.95×0.94×0.90=0.8034

Component 2 and backup for component 2:

Reliability=0.95+[(1−0.95)×0.95]=0.95+[0.05×0.95]=0.95+0.0475=0.9975

Reliability of robot=0.98×0.9975×0.94×0.90=0.8270

Component 3 and backup for component 3:

Reliability=0.94+[(1−0.94)×0.94]=0.94+[0.06×0.94]=0.94+0.564=0.9964

Reliability of robot=0.98×0.95×0.9964×0.90=0.8349

Component 4 and backup for component 4:

Reliability=0.90+[(1−0.90)×0.90]=0.90+[0.10×0.90]=0.90+0.09=0.99

Reliability of robot=0.98×0.95×0.94×0.99=0.8664

The reliability of component 4 is more when compared with other components.

Hence, the component that should get the backup is component 4.

c)

Expert Solution

Summary Introduction

To determine: The component that should get the backup.

Introduction:

Reliability:

Reliability can be termed as the measure of the capability of a product or any service to perform its intended job under a predetermined set of conditions. The product or service will yield the same results on the repeated trials. It is the degree of consistency of a measure.

Answer to Problem 6P

The component that should get the backup is component 4.

Explanation of Solution

Given information:

There are 4 components.
Reliabilities are 0.98, 0.95, 0.94, 0.90
Backup reliability is 0.92

Calculation of reliability of the robot:

The reliability is calculated by multiplying the probabilities of all the components.

Reliability=0.98×0.95×0.94×0.90=0.7876

Calculation of reliability of the system:

Component 1 and backup for component 1:

Reliability=0.98+[(1-0.98)×0.92]=0.98+[0.02×0.92]=0.98+0.0184=0.9984

Reliability of robot=0.9984×0.95×0.94×0.90=0.8024

Component 2 and backup for component 2:

Reliability=0.95+[(1-0.95)×0.92]=0.95+[0.05×0.92]=0.95+0.0460=0.9960

Reliability of robot=0.98×0.9960×0.94×0.90=0.8258

Component 3 and backup for component 3:

Reliability=0.94+[(1-0.94)×0.92]=0.94+[0.06×0.92]=0.94+0.552=0.9952

Reliability of robot=0.98×0.95×0.9952×0.90=0.8339

Component 4 and backup for component 4:

Reliability=0.90+[(1−0.90)×0.92]=0.90+[0.10×0.92]=0.90+0.0920=0.9920

Reliability of robot=0.98×0.95×0.94×0.9920=0.8681

The reliability of component 4 is more when compared with other components.

Hence, the component that should get the backup is component 4.

Want to see more full solutions like this?

Subscribe now to access step-by-step solutions to millions of textbook problems written by subject matter experts!

Students have asked these similar questions

6:35 nvas.liberty.edu < 72% i You must post before seeing replies. Edit history will be available to instructors. ☑ Due Feb 13 33 Replies (33) 50 points Discussion Thread: How to Look at the Bible After reading the assigned chapters in Everyday Bible Study (Chapters 1-5), create a learning log that lists 10 quotes from the assigned reading that highlight either a concept that resonated with you or a concept that represents new learning for you. Following each of these quotes, you must provide a 3-5 sentence explanation of how the selected quote represents either what resonated with you or this new learning. For an example of this type of thread, please see the provided example. Pleas ◄ Previous cussion Assignment instructions ✓ and the ||| Next ▸

Do a report to promote an innovative product/service within an organization of your choice. In your assignment, you need to focus on the below: 1. Give a brief introduction of the innovative product/service you are thinking about within an organization of your choice. 2. Analyze how you are going to promote your idea internally to your colleagues (e.g. meetings, presenting and disseminating the information). 3. Explain how you are going to convince them that this product/service is applicable and that it will create a competitive advantage in the market. 4. Refer to a similar product/service that your competitors have and analyze how the competitors’ product can be considered as a threat to your new product/service. 5. Estimate how much will the whole procedure cost to the business. 6. In your conclusions, describe how the new product/service will influence the whole organization’s environment. 3000 words and include and introducion, conclusion and references.

For my learning and not a assignment question: Tesla, the U.S. electric vehicle manufacturer, has recently proposed to join Indonesia’s initiative to develop an EV battery supply chain within the country. This information was shared by a senior Indonesian government official, who noted that the government received Tesla's proposal on Thursday. Indonesia, known for its rich nickel reserves, is already in discussions with companies like China's Contemporary Amperex Technology (CATL) and South Korea's LG Chem to establish a comprehensive EV battery supply chain that covers everything from raw materials to the final product. Sepian Hari Seto, the deputy for investment and mining at the Coordinating Ministry of Maritime Affairs and Investment, expressed enthusiasm for Tesla's advanced lithium battery technology. He conveyed that the collaboration with Tesla, along with CATL and LG, presents a valuable opportunity for technology transfer and learning. Furthermore, Seto mentioned the…

Answer 2

Textbook Question

Chapter 4.S, Problem 6P

One of the industrial robots designed by a leading producer of servomechanisms has four major components. Components’ reliabilities are .98, .95, .94 and .90 All of the components must function in order for the robot to operate effectively.

a. Compute the reliability of the robot.

b. Designers want to improve the reliability by adding a backup component. Due to spice limitations, only one backup can be added. The backup for any component will have the same reliability as the unit for which it is the backup. Which component should get the backup in order to achieve the highest reliability?

c. If one backup with a reliability of .92 can be added to any one of the main components, which component should get it to obtain the highest overall reliability?

a)

Expert Solution

Summary Introduction

To determine: The reliability of the robot.

Introduction:

Reliability:

Reliability can be termed as the measure of the capability of a product or any service to perform its intended job under a predetermined set of conditions. The product or service will yield the same results on the repeated trials. It is the degree of consistency of a measure.

Answer to Problem 6P

The reliability of the robot is 0.7876.

Explanation of Solution

Given information:

There are 4 components.
Reliabilities are 0.98, 0.95, 0.94, 0.90

Calculation of reliability of the robot:

The reliability is calculated by multiplying the probabilities of all the components.

Reliability=0.98×0.95×0.94×0.90=0.7876

Hence, the reliability of the robot is 0.7876.

b)

Expert Solution

Summary Introduction

To determine: The component that should get the backup.

Introduction:

Reliability:

Reliability can be termed as the measure of the capability of a product or any service to perform its intended job under a predetermined set of conditions. The product or service will yield the same results on the repeated trials. It is the degree of consistency of a measure.

Answer to Problem 6P

The component that should get the backup is component 4.

Explanation of Solution

Given information:

There are 4 components.
Reliabilities are 0.98, 0.95, 0.94, 0.90
Each backup will have the same reliability as the component.

Calculation of reliability of the robot:

The reliability is calculated by multiplying the probabilities of all the components.

Reliability=0.98×0.95×0.94×0.90=0.7876

Calculation of reliability of the system:

Component 1 and backup for component 1:

Reliability=0.98+[(1−0.98)×0.98]=0.98+[0.02×0.98]=0.98+0.0196=0.9996

Reliability of robot=0.9996×0.95×0.94×0.90=0.8034

Component 2 and backup for component 2:

Reliability=0.95+[(1−0.95)×0.95]=0.95+[0.05×0.95]=0.95+0.0475=0.9975

Reliability of robot=0.98×0.9975×0.94×0.90=0.8270

Component 3 and backup for component 3:

Reliability=0.94+[(1−0.94)×0.94]=0.94+[0.06×0.94]=0.94+0.564=0.9964

Reliability of robot=0.98×0.95×0.9964×0.90=0.8349

Component 4 and backup for component 4:

Reliability=0.90+[(1−0.90)×0.90]=0.90+[0.10×0.90]=0.90+0.09=0.99

Reliability of robot=0.98×0.95×0.94×0.99=0.8664

The reliability of component 4 is more when compared with other components.

Hence, the component that should get the backup is component 4.

c)

Expert Solution

Summary Introduction

To determine: The component that should get the backup.

Introduction:

Reliability:

Reliability can be termed as the measure of the capability of a product or any service to perform its intended job under a predetermined set of conditions. The product or service will yield the same results on the repeated trials. It is the degree of consistency of a measure.

Answer to Problem 6P

The component that should get the backup is component 4.

Explanation of Solution

Given information:

There are 4 components.
Reliabilities are 0.98, 0.95, 0.94, 0.90
Backup reliability is 0.92

Calculation of reliability of the robot:

The reliability is calculated by multiplying the probabilities of all the components.

Reliability=0.98×0.95×0.94×0.90=0.7876

Calculation of reliability of the system:

Component 1 and backup for component 1:

Reliability=0.98+[(1-0.98)×0.92]=0.98+[0.02×0.92]=0.98+0.0184=0.9984

Reliability of robot=0.9984×0.95×0.94×0.90=0.8024

Component 2 and backup for component 2:

Reliability=0.95+[(1-0.95)×0.92]=0.95+[0.05×0.92]=0.95+0.0460=0.9960

Reliability of robot=0.98×0.9960×0.94×0.90=0.8258

Component 3 and backup for component 3:

Reliability=0.94+[(1-0.94)×0.92]=0.94+[0.06×0.92]=0.94+0.552=0.9952

Reliability of robot=0.98×0.95×0.9952×0.90=0.8339

Component 4 and backup for component 4:

Reliability=0.90+[(1−0.90)×0.92]=0.90+[0.10×0.92]=0.90+0.0920=0.9920

Reliability of robot=0.98×0.95×0.94×0.9920=0.8681

The reliability of component 4 is more when compared with other components.

Hence, the component that should get the backup is component 4.

Want to see more full solutions like this?

Subscribe now to access step-by-step solutions to millions of textbook problems written by subject matter experts!

Answer 3

Textbook Question

Chapter 4.S, Problem 6P

One of the industrial robots designed by a leading producer of servomechanisms has four major components. Components’ reliabilities are .98, .95, .94 and .90 All of the components must function in order for the robot to operate effectively.

a. Compute the reliability of the robot.

b. Designers want to improve the reliability by adding a backup component. Due to spice limitations, only one backup can be added. The backup for any component will have the same reliability as the unit for which it is the backup. Which component should get the backup in order to achieve the highest reliability?

c. If one backup with a reliability of .92 can be added to any one of the main components, which component should get it to obtain the highest overall reliability?

a)

Expert Solution

Summary Introduction

To determine: The reliability of the robot.

Introduction:

Reliability:

Reliability can be termed as the measure of the capability of a product or any service to perform its intended job under a predetermined set of conditions. The product or service will yield the same results on the repeated trials. It is the degree of consistency of a measure.

Answer to Problem 6P

The reliability of the robot is 0.7876.

Explanation of Solution

Given information:

There are 4 components.
Reliabilities are 0.98, 0.95, 0.94, 0.90

Calculation of reliability of the robot:

The reliability is calculated by multiplying the probabilities of all the components.

Reliability=0.98×0.95×0.94×0.90=0.7876

Hence, the reliability of the robot is 0.7876.

b)

Expert Solution

Summary Introduction

To determine: The component that should get the backup.

Introduction:

Reliability:

Reliability can be termed as the measure of the capability of a product or any service to perform its intended job under a predetermined set of conditions. The product or service will yield the same results on the repeated trials. It is the degree of consistency of a measure.

Answer to Problem 6P

The component that should get the backup is component 4.

Explanation of Solution

Given information:

There are 4 components.
Reliabilities are 0.98, 0.95, 0.94, 0.90
Each backup will have the same reliability as the component.

Calculation of reliability of the robot:

The reliability is calculated by multiplying the probabilities of all the components.

Reliability=0.98×0.95×0.94×0.90=0.7876

Calculation of reliability of the system:

Component 1 and backup for component 1:

Reliability=0.98+[(1−0.98)×0.98]=0.98+[0.02×0.98]=0.98+0.0196=0.9996

Reliability of robot=0.9996×0.95×0.94×0.90=0.8034

Component 2 and backup for component 2:

Reliability=0.95+[(1−0.95)×0.95]=0.95+[0.05×0.95]=0.95+0.0475=0.9975

Reliability of robot=0.98×0.9975×0.94×0.90=0.8270

Component 3 and backup for component 3:

Reliability=0.94+[(1−0.94)×0.94]=0.94+[0.06×0.94]=0.94+0.564=0.9964

Reliability of robot=0.98×0.95×0.9964×0.90=0.8349

Component 4 and backup for component 4:

Reliability=0.90+[(1−0.90)×0.90]=0.90+[0.10×0.90]=0.90+0.09=0.99

Reliability of robot=0.98×0.95×0.94×0.99=0.8664

The reliability of component 4 is more when compared with other components.

Hence, the component that should get the backup is component 4.

c)

Expert Solution

Summary Introduction

To determine: The component that should get the backup.

Introduction:

Reliability:

Reliability can be termed as the measure of the capability of a product or any service to perform its intended job under a predetermined set of conditions. The product or service will yield the same results on the repeated trials. It is the degree of consistency of a measure.

Answer to Problem 6P

The component that should get the backup is component 4.

Explanation of Solution

Given information:

There are 4 components.
Reliabilities are 0.98, 0.95, 0.94, 0.90
Backup reliability is 0.92

Calculation of reliability of the robot:

The reliability is calculated by multiplying the probabilities of all the components.

Reliability=0.98×0.95×0.94×0.90=0.7876

Calculation of reliability of the system:

Component 1 and backup for component 1:

Reliability=0.98+[(1-0.98)×0.92]=0.98+[0.02×0.92]=0.98+0.0184=0.9984

Reliability of robot=0.9984×0.95×0.94×0.90=0.8024

Component 2 and backup for component 2:

Reliability=0.95+[(1-0.95)×0.92]=0.95+[0.05×0.92]=0.95+0.0460=0.9960

Reliability of robot=0.98×0.9960×0.94×0.90=0.8258

Component 3 and backup for component 3:

Reliability=0.94+[(1-0.94)×0.92]=0.94+[0.06×0.92]=0.94+0.552=0.9952

Reliability of robot=0.98×0.95×0.9952×0.90=0.8339

Component 4 and backup for component 4:

Reliability=0.90+[(1−0.90)×0.92]=0.90+[0.10×0.92]=0.90+0.0920=0.9920

Reliability of robot=0.98×0.95×0.94×0.9920=0.8681

The reliability of component 4 is more when compared with other components.

Hence, the component that should get the backup is component 4.

Want to see more full solutions like this?

Subscribe now to access step-by-step solutions to millions of textbook problems written by subject matter experts!

Answer 4

Textbook Question

Chapter 4.S, Problem 6P

One of the industrial robots designed by a leading producer of servomechanisms has four major components. Components’ reliabilities are .98, .95, .94 and .90 All of the components must function in order for the robot to operate effectively.

a. Compute the reliability of the robot.

b. Designers want to improve the reliability by adding a backup component. Due to spice limitations, only one backup can be added. The backup for any component will have the same reliability as the unit for which it is the backup. Which component should get the backup in order to achieve the highest reliability?

c. If one backup with a reliability of .92 can be added to any one of the main components, which component should get it to obtain the highest overall reliability?

a)

Expert Solution

Summary Introduction

To determine: The reliability of the robot.

Introduction:

Reliability:

Reliability can be termed as the measure of the capability of a product or any service to perform its intended job under a predetermined set of conditions. The product or service will yield the same results on the repeated trials. It is the degree of consistency of a measure.

Answer to Problem 6P

The reliability of the robot is 0.7876.

Explanation of Solution

Given information:

There are 4 components.
Reliabilities are 0.98, 0.95, 0.94, 0.90

Calculation of reliability of the robot:

The reliability is calculated by multiplying the probabilities of all the components.

Reliability=0.98×0.95×0.94×0.90=0.7876

Hence, the reliability of the robot is 0.7876.

b)

Expert Solution

Summary Introduction

To determine: The component that should get the backup.

Introduction:

Reliability:

Reliability can be termed as the measure of the capability of a product or any service to perform its intended job under a predetermined set of conditions. The product or service will yield the same results on the repeated trials. It is the degree of consistency of a measure.

Answer to Problem 6P

The component that should get the backup is component 4.

Explanation of Solution

Given information:

There are 4 components.
Reliabilities are 0.98, 0.95, 0.94, 0.90
Each backup will have the same reliability as the component.

Calculation of reliability of the robot:

The reliability is calculated by multiplying the probabilities of all the components.

Reliability=0.98×0.95×0.94×0.90=0.7876

Calculation of reliability of the system:

Component 1 and backup for component 1:

Reliability=0.98+[(1−0.98)×0.98]=0.98+[0.02×0.98]=0.98+0.0196=0.9996

Reliability of robot=0.9996×0.95×0.94×0.90=0.8034

Component 2 and backup for component 2:

Reliability=0.95+[(1−0.95)×0.95]=0.95+[0.05×0.95]=0.95+0.0475=0.9975

Reliability of robot=0.98×0.9975×0.94×0.90=0.8270

Component 3 and backup for component 3:

Reliability=0.94+[(1−0.94)×0.94]=0.94+[0.06×0.94]=0.94+0.564=0.9964

Reliability of robot=0.98×0.95×0.9964×0.90=0.8349

Component 4 and backup for component 4:

Reliability=0.90+[(1−0.90)×0.90]=0.90+[0.10×0.90]=0.90+0.09=0.99

Reliability of robot=0.98×0.95×0.94×0.99=0.8664

The reliability of component 4 is more when compared with other components.

Hence, the component that should get the backup is component 4.

c)

Expert Solution

Summary Introduction

To determine: The component that should get the backup.

Introduction:

Reliability:

Reliability can be termed as the measure of the capability of a product or any service to perform its intended job under a predetermined set of conditions. The product or service will yield the same results on the repeated trials. It is the degree of consistency of a measure.

Answer to Problem 6P

The component that should get the backup is component 4.

Explanation of Solution

Given information:

There are 4 components.
Reliabilities are 0.98, 0.95, 0.94, 0.90
Backup reliability is 0.92

Calculation of reliability of the robot:

The reliability is calculated by multiplying the probabilities of all the components.

Reliability=0.98×0.95×0.94×0.90=0.7876

Calculation of reliability of the system:

Component 1 and backup for component 1:

Reliability=0.98+[(1-0.98)×0.92]=0.98+[0.02×0.92]=0.98+0.0184=0.9984

Reliability of robot=0.9984×0.95×0.94×0.90=0.8024

Component 2 and backup for component 2:

Reliability=0.95+[(1-0.95)×0.92]=0.95+[0.05×0.92]=0.95+0.0460=0.9960

Reliability of robot=0.98×0.9960×0.94×0.90=0.8258

Component 3 and backup for component 3:

Reliability=0.94+[(1-0.94)×0.92]=0.94+[0.06×0.92]=0.94+0.552=0.9952

Reliability of robot=0.98×0.95×0.9952×0.90=0.8339

Component 4 and backup for component 4:

Reliability=0.90+[(1−0.90)×0.92]=0.90+[0.10×0.92]=0.90+0.0920=0.9920

Reliability of robot=0.98×0.95×0.94×0.9920=0.8681

The reliability of component 4 is more when compared with other components.

Hence, the component that should get the backup is component 4.

Want to see more full solutions like this?

Subscribe now to access step-by-step solutions to millions of textbook problems written by subject matter experts!

Answer 5

Textbook Question

Answer 6

Textbook Question

Answer 7

a)

Expert Solution

Summary Introduction

To determine: The reliability of the robot.

Introduction:

Reliability:

Reliability can be termed as the measure of the capability of a product or any service to perform its intended job under a predetermined set of conditions. The product or service will yield the same results on the repeated trials. It is the degree of consistency of a measure.

Answer to Problem 6P

The reliability of the robot is 0.7876.

Explanation of Solution

Given information:

There are 4 components.
Reliabilities are 0.98, 0.95, 0.94, 0.90

Calculation of reliability of the robot:

The reliability is calculated by multiplying the probabilities of all the components.

Reliability=0.98×0.95×0.94×0.90=0.7876

Hence, the reliability of the robot is 0.7876.

b)

Expert Solution

Summary Introduction

To determine: The component that should get the backup.

Introduction:

Reliability:

Reliability can be termed as the measure of the capability of a product or any service to perform its intended job under a predetermined set of conditions. The product or service will yield the same results on the repeated trials. It is the degree of consistency of a measure.

Answer to Problem 6P

The component that should get the backup is component 4.

Explanation of Solution

Given information:

There are 4 components.
Reliabilities are 0.98, 0.95, 0.94, 0.90
Each backup will have the same reliability as the component.

Calculation of reliability of the robot:

The reliability is calculated by multiplying the probabilities of all the components.

Reliability=0.98×0.95×0.94×0.90=0.7876

Calculation of reliability of the system:

Component 1 and backup for component 1:

Reliability=0.98+[(1−0.98)×0.98]=0.98+[0.02×0.98]=0.98+0.0196=0.9996

Reliability of robot=0.9996×0.95×0.94×0.90=0.8034

Component 2 and backup for component 2:

Reliability=0.95+[(1−0.95)×0.95]=0.95+[0.05×0.95]=0.95+0.0475=0.9975

Reliability of robot=0.98×0.9975×0.94×0.90=0.8270

Component 3 and backup for component 3:

Reliability=0.94+[(1−0.94)×0.94]=0.94+[0.06×0.94]=0.94+0.564=0.9964

Reliability of robot=0.98×0.95×0.9964×0.90=0.8349

Component 4 and backup for component 4:

Reliability=0.90+[(1−0.90)×0.90]=0.90+[0.10×0.90]=0.90+0.09=0.99

Reliability of robot=0.98×0.95×0.94×0.99=0.8664

The reliability of component 4 is more when compared with other components.

Hence, the component that should get the backup is component 4.

c)

Expert Solution

Summary Introduction

To determine: The component that should get the backup.

Introduction:

Reliability:

Reliability can be termed as the measure of the capability of a product or any service to perform its intended job under a predetermined set of conditions. The product or service will yield the same results on the repeated trials. It is the degree of consistency of a measure.

Answer to Problem 6P

The component that should get the backup is component 4.

Explanation of Solution

Given information:

There are 4 components.
Reliabilities are 0.98, 0.95, 0.94, 0.90
Backup reliability is 0.92

Calculation of reliability of the robot:

The reliability is calculated by multiplying the probabilities of all the components.

Reliability=0.98×0.95×0.94×0.90=0.7876

Calculation of reliability of the system:

Component 1 and backup for component 1:

Reliability=0.98+[(1-0.98)×0.92]=0.98+[0.02×0.92]=0.98+0.0184=0.9984

Reliability of robot=0.9984×0.95×0.94×0.90=0.8024

Component 2 and backup for component 2:

Reliability=0.95+[(1-0.95)×0.92]=0.95+[0.05×0.92]=0.95+0.0460=0.9960

Reliability of robot=0.98×0.9960×0.94×0.90=0.8258

Component 3 and backup for component 3:

Reliability=0.94+[(1-0.94)×0.92]=0.94+[0.06×0.92]=0.94+0.552=0.9952

Reliability of robot=0.98×0.95×0.9952×0.90=0.8339

Component 4 and backup for component 4:

Reliability=0.90+[(1−0.90)×0.92]=0.90+[0.10×0.92]=0.90+0.0920=0.9920

Reliability of robot=0.98×0.95×0.94×0.9920=0.8681

The reliability of component 4 is more when compared with other components.

Hence, the component that should get the backup is component 4.

Answer 8

a)

Expert Solution

Summary Introduction

To determine: The reliability of the robot.

Introduction:

Reliability:

Reliability can be termed as the measure of the capability of a product or any service to perform its intended job under a predetermined set of conditions. The product or service will yield the same results on the repeated trials. It is the degree of consistency of a measure.

Answer to Problem 6P

The reliability of the robot is 0.7876.

Explanation of Solution

Given information:

There are 4 components.
Reliabilities are 0.98, 0.95, 0.94, 0.90

Calculation of reliability of the robot:

The reliability is calculated by multiplying the probabilities of all the components.

Reliability=0.98×0.95×0.94×0.90=0.7876

Hence, the reliability of the robot is 0.7876.

Answer 9

a)

Expert Solution

Answer 10

a)

Expert Solution

Answer 11

Expert Solution

Answer 12

Summary Introduction

To determine: The reliability of the robot.

Introduction:

Reliability:

Reliability can be termed as the measure of the capability of a product or any service to perform its intended job under a predetermined set of conditions. The product or service will yield the same results on the repeated trials. It is the degree of consistency of a measure.

Answer 13

Answer to Problem 6P

The reliability of the robot is 0.7876.

Answer 14

Explanation of Solution

Given information:

There are 4 components.
Reliabilities are 0.98, 0.95, 0.94, 0.90

Calculation of reliability of the robot:

The reliability is calculated by multiplying the probabilities of all the components.

Reliability=0.98×0.95×0.94×0.90=0.7876

Hence, the reliability of the robot is 0.7876.

Answer 15

b)

Expert Solution

Summary Introduction

To determine: The component that should get the backup.

Introduction:

Reliability:

Reliability can be termed as the measure of the capability of a product or any service to perform its intended job under a predetermined set of conditions. The product or service will yield the same results on the repeated trials. It is the degree of consistency of a measure.

Answer to Problem 6P

The component that should get the backup is component 4.

Explanation of Solution

Given information:

There are 4 components.
Reliabilities are 0.98, 0.95, 0.94, 0.90
Each backup will have the same reliability as the component.

Calculation of reliability of the robot:

The reliability is calculated by multiplying the probabilities of all the components.

Reliability=0.98×0.95×0.94×0.90=0.7876

Calculation of reliability of the system:

Component 1 and backup for component 1:

Reliability=0.98+[(1−0.98)×0.98]=0.98+[0.02×0.98]=0.98+0.0196=0.9996

Reliability of robot=0.9996×0.95×0.94×0.90=0.8034

Component 2 and backup for component 2:

Reliability=0.95+[(1−0.95)×0.95]=0.95+[0.05×0.95]=0.95+0.0475=0.9975

Reliability of robot=0.98×0.9975×0.94×0.90=0.8270

Component 3 and backup for component 3:

Reliability=0.94+[(1−0.94)×0.94]=0.94+[0.06×0.94]=0.94+0.564=0.9964

Reliability of robot=0.98×0.95×0.9964×0.90=0.8349

Component 4 and backup for component 4:

Reliability=0.90+[(1−0.90)×0.90]=0.90+[0.10×0.90]=0.90+0.09=0.99

Reliability of robot=0.98×0.95×0.94×0.99=0.8664

The reliability of component 4 is more when compared with other components.

Hence, the component that should get the backup is component 4.

Answer 16

b)

Expert Solution

Answer 17

b)

Expert Solution

Answer 18

Expert Solution

Answer 19

Summary Introduction

To determine: The component that should get the backup.

Introduction:

Reliability:

Reliability can be termed as the measure of the capability of a product or any service to perform its intended job under a predetermined set of conditions. The product or service will yield the same results on the repeated trials. It is the degree of consistency of a measure.

Answer 20

Answer to Problem 6P

The component that should get the backup is component 4.

Answer 21

Explanation of Solution

Given information:

There are 4 components.
Reliabilities are 0.98, 0.95, 0.94, 0.90
Each backup will have the same reliability as the component.

Calculation of reliability of the robot:

The reliability is calculated by multiplying the probabilities of all the components.

Reliability=0.98×0.95×0.94×0.90=0.7876

Calculation of reliability of the system:

Component 1 and backup for component 1:

Reliability=0.98+[(1−0.98)×0.98]=0.98+[0.02×0.98]=0.98+0.0196=0.9996

Reliability of robot=0.9996×0.95×0.94×0.90=0.8034

Component 2 and backup for component 2:

Reliability=0.95+[(1−0.95)×0.95]=0.95+[0.05×0.95]=0.95+0.0475=0.9975

Reliability of robot=0.98×0.9975×0.94×0.90=0.8270

Component 3 and backup for component 3:

Reliability=0.94+[(1−0.94)×0.94]=0.94+[0.06×0.94]=0.94+0.564=0.9964

Reliability of robot=0.98×0.95×0.9964×0.90=0.8349

Component 4 and backup for component 4:

Reliability=0.90+[(1−0.90)×0.90]=0.90+[0.10×0.90]=0.90+0.09=0.99

Reliability of robot=0.98×0.95×0.94×0.99=0.8664

The reliability of component 4 is more when compared with other components.

Hence, the component that should get the backup is component 4.

Answer 22

c)

Expert Solution

Summary Introduction

To determine: The component that should get the backup.

Introduction:

Reliability:

Reliability can be termed as the measure of the capability of a product or any service to perform its intended job under a predetermined set of conditions. The product or service will yield the same results on the repeated trials. It is the degree of consistency of a measure.

Answer to Problem 6P

The component that should get the backup is component 4.

Explanation of Solution

Given information:

There are 4 components.
Reliabilities are 0.98, 0.95, 0.94, 0.90
Backup reliability is 0.92

Calculation of reliability of the robot:

The reliability is calculated by multiplying the probabilities of all the components.

Reliability=0.98×0.95×0.94×0.90=0.7876

Calculation of reliability of the system:

Component 1 and backup for component 1:

Reliability=0.98+[(1-0.98)×0.92]=0.98+[0.02×0.92]=0.98+0.0184=0.9984

Reliability of robot=0.9984×0.95×0.94×0.90=0.8024

Component 2 and backup for component 2:

Reliability=0.95+[(1-0.95)×0.92]=0.95+[0.05×0.92]=0.95+0.0460=0.9960

Reliability of robot=0.98×0.9960×0.94×0.90=0.8258

Component 3 and backup for component 3:

Reliability=0.94+[(1-0.94)×0.92]=0.94+[0.06×0.92]=0.94+0.552=0.9952

Reliability of robot=0.98×0.95×0.9952×0.90=0.8339

Component 4 and backup for component 4:

Reliability=0.90+[(1−0.90)×0.92]=0.90+[0.10×0.92]=0.90+0.0920=0.9920

Reliability of robot=0.98×0.95×0.94×0.9920=0.8681

The reliability of component 4 is more when compared with other components.

Hence, the component that should get the backup is component 4.

Answer 23

c)

Expert Solution

Answer 24

c)

Expert Solution

Answer 25

Expert Solution

Answer 26

Summary Introduction

To determine: The component that should get the backup.

Introduction:

Reliability:

Reliability can be termed as the measure of the capability of a product or any service to perform its intended job under a predetermined set of conditions. The product or service will yield the same results on the repeated trials. It is the degree of consistency of a measure.

Answer 27

Answer to Problem 6P

The component that should get the backup is component 4.

Answer 28

Explanation of Solution

Given information:

There are 4 components.
Reliabilities are 0.98, 0.95, 0.94, 0.90
Backup reliability is 0.92

Calculation of reliability of the robot:

The reliability is calculated by multiplying the probabilities of all the components.

Reliability=0.98×0.95×0.94×0.90=0.7876

Calculation of reliability of the system:

Component 1 and backup for component 1:

Reliability=0.98+[(1-0.98)×0.92]=0.98+[0.02×0.92]=0.98+0.0184=0.9984

Reliability of robot=0.9984×0.95×0.94×0.90=0.8024

Component 2 and backup for component 2:

Reliability=0.95+[(1-0.95)×0.92]=0.95+[0.05×0.92]=0.95+0.0460=0.9960

Reliability of robot=0.98×0.9960×0.94×0.90=0.8258

Component 3 and backup for component 3:

Reliability=0.94+[(1-0.94)×0.92]=0.94+[0.06×0.92]=0.94+0.552=0.9952

Reliability of robot=0.98×0.95×0.9952×0.90=0.8339

Component 4 and backup for component 4:

Reliability=0.90+[(1−0.90)×0.92]=0.90+[0.10×0.92]=0.90+0.0920=0.9920

Reliability of robot=0.98×0.95×0.94×0.9920=0.8681

The reliability of component 4 is more when compared with other components.

Hence, the component that should get the backup is component 4.

Answer 29

Ch. 4.5 - Prob. 1.1RQ Ch. 4.5 - Prob. 1.2RQ Ch. 4.8 - LEGO A/S IN THE PINK Lego A/S overcame the recent...Ch. 4.11 - THE CHALLENGES OF MANAGING SERVICES Services can...Ch. 4.11 - THE CHALLENGES OF MANAGING SERVICES Services can...Ch. 4.S - Prob. 1DRQ Ch. 4.S - Prob. 2DRQ Ch. 4.S - Prob. 3DRQ Ch. 4.S - Consider the following system: Determine the...Ch. 4.S - A product is composed of four parts. In order for...

Videos

Answer to Problem 6P

Explanation of Solution

Answer to Problem 6P

Explanation of Solution

Answer to Problem 6P

Explanation of Solution

Want to see more full solutions like this?

Chapter 4 Solutions