The document consists of a single URL - besturdubooks.wordpress.com - repeated over 500 times. It provides no other text, images or meaningful content. The repetitive listing of the same URL indicates this document serves to artificially increase the page count or link profile of the given website, rather than share useful information. In 3 sentences or less, the document summarizes to: The document contains over 500 repetitions of the URL besturdubooks.wordpress.com with no other text or content, suggesting it aims to artificially boost the listed website's online presence through redundant linking rather than share meaningful information.
Motherboard/system firmware refers to the low-level software that controls a storage system's motherboard. On NetApp systems, this is also known as BIOS, CFE, or OFW depending on the model. It is similar to the BIOS firmware on a PC motherboard. To update it, one downloads the latest version from NetApp's support site and transfers it to the system's boot device (CompactFlash card) using commands like download-d or update_flash. Beginning with Data ONTAP 8.0, subsequent BIOS updates are often automatic during booting.
A hydroelectric power plant harnesses the kinetic energy of flowing water to generate electricity. It consists of a dam that creates a reservoir of water, turbines that convert the energy of falling water into mechanical energy, and generators that transform mechanical energy into electrical energy. The plant is ideally located near a river in hilly areas where a large dam and reservoir can be built. Hydroelectric power is a renewable source of energy that produces no emissions. However, it has high upfront costs and power generation depends on water availability, which can fluctuate with weather patterns.
Load duration curves show how load demand for electricity varies over time, such as daily or monthly. They are useful for predicting future energy needs and determining the appropriate capacity and size of generating units for a power plant. When planning a power plant, its total installed capacity and size of generating units must be decided based on the expected maximum load and factors like load factor, capacity factor, reserve factor, demand factor, and diversity factor, which all influence the economic operation of the plant. The load duration curve is divided into base, intermediate, and peaking loads, and different types of generating plants are suited for meeting each type of load demand.
Explaining reactive power - 4 further analogiesLeonardo ENERGY
Following the Minute Lecture Four analogies to explain reactive power, we received many reactions. Several writers suggested further analogies.
This inspired us for making a sequel to this minute lecture, with four more analogies worked out.
When explaining reactive power to lay persons, you can pick any analogy of your choice, according to your target audience.
1. Introduction
2. History of transformer
3. Principle
4. Construction and Working
5. Types of Transformer
6. Application
7. Auto transformer
8. Need of transformer
Objective Electrical Electronics Engineering Questions and AnswersMostafizur Rahman
The document contains 50 multiple choice questions and answers related to electrical engineering. It covers topics such as transformers, motors, generators, transmission lines and electrical machines. Some key details include:
- Questions test knowledge of induction motors, synchronous motors, transformers, DC machines and other core electrical engineering topics.
- Sample questions include the speed of a rotor under different conditions, voltage regulation calculations, motor pole numbers based on speed, and components of machines like capacitors in motors.
- The answers provided explain the conceptual reasoning behind each multiple choice selection to help understand the principles.
Motherboard/system firmware refers to the low-level software that controls a storage system's motherboard. On NetApp systems, this is also known as BIOS, CFE, or OFW depending on the model. It is similar to the BIOS firmware on a PC motherboard. To update it, one downloads the latest version from NetApp's support site and transfers it to the system's boot device (CompactFlash card) using commands like download-d or update_flash. Beginning with Data ONTAP 8.0, subsequent BIOS updates are often automatic during booting.
A hydroelectric power plant harnesses the kinetic energy of flowing water to generate electricity. It consists of a dam that creates a reservoir of water, turbines that convert the energy of falling water into mechanical energy, and generators that transform mechanical energy into electrical energy. The plant is ideally located near a river in hilly areas where a large dam and reservoir can be built. Hydroelectric power is a renewable source of energy that produces no emissions. However, it has high upfront costs and power generation depends on water availability, which can fluctuate with weather patterns.
Load duration curves show how load demand for electricity varies over time, such as daily or monthly. They are useful for predicting future energy needs and determining the appropriate capacity and size of generating units for a power plant. When planning a power plant, its total installed capacity and size of generating units must be decided based on the expected maximum load and factors like load factor, capacity factor, reserve factor, demand factor, and diversity factor, which all influence the economic operation of the plant. The load duration curve is divided into base, intermediate, and peaking loads, and different types of generating plants are suited for meeting each type of load demand.
Explaining reactive power - 4 further analogiesLeonardo ENERGY
Following the Minute Lecture Four analogies to explain reactive power, we received many reactions. Several writers suggested further analogies.
This inspired us for making a sequel to this minute lecture, with four more analogies worked out.
When explaining reactive power to lay persons, you can pick any analogy of your choice, according to your target audience.
1. Introduction
2. History of transformer
3. Principle
4. Construction and Working
5. Types of Transformer
6. Application
7. Auto transformer
8. Need of transformer
Objective Electrical Electronics Engineering Questions and AnswersMostafizur Rahman
The document contains 50 multiple choice questions and answers related to electrical engineering. It covers topics such as transformers, motors, generators, transmission lines and electrical machines. Some key details include:
- Questions test knowledge of induction motors, synchronous motors, transformers, DC machines and other core electrical engineering topics.
- Sample questions include the speed of a rotor under different conditions, voltage regulation calculations, motor pole numbers based on speed, and components of machines like capacitors in motors.
- The answers provided explain the conceptual reasoning behind each multiple choice selection to help understand the principles.
Unit v conventional and solid state speed control of ac drivesDr SOUNDIRARAJ N
This document discusses various methods for controlling the speed of AC induction motors, including stator-side control by varying voltage or frequency, and rotor-side control using cascade control, adding rotor resistance, or slip power recovery schemes. Stator-side control involves changing the stator voltage using autotransformers or resistors, or changing the frequency which varies the synchronous speed. Rotor-side control techniques include cascade control using two motors, adding external resistance in the rotor circuit, or recovering slip power using Kramer or Scherbius systems.
Modeling and Testing of Induction MotorsBirju Besra
Induction motor is an energy conversion device that converts electrical energy into useful rotational kinetic energy, it is an application of the Faraday's law of induction.AC Motors are required in many modern adjustable-speed drives; the requirement is for precise and continuous control of speed and torque with long-term stability and high efficiency. The DC motor satisfies most of these requirements, but its mechanical commutator and the sparking are disadvantages because they may be dangerous in some areas of applications, plus regular maintenance is required and cannot be done when the motor is used at inaccessible locations.
In electrical engineering, a synchronous condenser (sometimes synchronous capacitor or synchronous compensator) is a device identical to a synchronous motor, whose shaft is not connected to anything but spins freely.
This document is the copyright page and contents for a book on extra high voltage AC transmission engineering. It lists the book's copyright as belonging to NewAge International Publishers and notes that no part can be reproduced without written permission. The dedication is to the author's mother and sister for overcoming cancer. It also contains brief introductions and acknowledgements from contributors, including the book's director and others who assisted. The contents provide an outline of the book's 10 chapters which cover topics like line parameters, voltage gradients, corona effects, fields, waves, lightning protection, and overvoltages from switching.
The document discusses power flow analysis, which determines voltages, currents, real power, and reactive power in a power system under steady-state load conditions. It describes the different types of buses in a power system and how they are modeled. The key component of power flow is the bus admittance matrix, which relates nodal voltages to branch currents based on Kirchhoff's current law. Solving the matrix equations provides the voltage magnitude and angle at each bus.
EMF EQUATION OF DC GENERATOR,DC MOTOR|DAY15|BACK EMF,TORQUE OF DC MOTOR|BASIC...Prasant Kumar
#EMF EQUATION OF DC GENERATOR
#EMF EQUATION OF DC MOTOR
#TORQUE EQUATION OF DC MOTOR
# EMF EQUATION OF DC MOTOR IN HINDI
#DERIVATION OF DC MOTOR EMF EQUATION
#FARADAY LAW OF ELECTROMAGNETIC INDUCTION
#back emf in dc motor
#back emf in dc motor in hindi
In this video you will learn about,derivation of dc machine emf equation,back emf,torque equation of dc motor,dc generated,dc motor.To understand electrical machine with trick watch all videos,
MUST UPGRADE YOUR KNOWLEDGE BY FLIPPED LEARNING
#Topic - ELECTRICAL TRANSFORMER
~ Link of all sessions are.
DAY 1 (Need/Definition)
https://youtu.be/BvaykFJ_NoE
DAY 2 (Working principle and Construction)
https://youtu.be/06rgxocihaM
DAY 3 (EMF equation and Turns Ratio)
https://youtu.be/g7e5xBPmv3Y
DAY 4 (Classification of Transformer)
https://youtu.be/6NP5L4MlvY4
DAY 5 ( Ideal and practical transformer on no load)
(Equivalent Transformer)
https://youtu.be/6LCLQC1p3lg
DAY 6 ( Losses in Transformer)
https://youtu.be/ObYNiGgd3hA
DAY 7 (O.C. and S.C. test)
https://youtu.be/8WiJRawHiTce/6LCLQC1p3lg
DAY 8 (Voltage Regulation & Efficiency)
https://youtu.be/6LCLQC1p3lg
DAY 9 (Zero Lecture)
https://youtu.be/N4xWOwgi8I4
DAY 10 (Classification of machine)
https://youtu.be/bmxnU5rC5m4
Construction of Machine
https://youtu.be/34mpphDk3gg
Working Principle of Synchronous Generator & Synchronous Motor
https://youtu.be/bkgf72M8BCY
Working Principle of Induction Motor
https://youtu.be/Lj_iQBoRiK0
Current Source Inverter and Voltage Source Inverter Sadanand Purohit
The document discusses two types of inverters - current source inverters (CSI) and voltage source inverters (VSI). It describes the construction and working of CSI, which uses predetermined source current and load impedance to determine output voltage. VSI uses a constant DC input voltage and feedback diodes. The document also covers applications of CSI and VSI, such as use of CSI for AC motor drives due to regenerative capability, and use of VSI in UPS and AC drives. FACTS devices based on VSI are also summarized, including STATCOM, SSSC and UPFC for controlling transmission line parameters.
1. A transformer is a device that converts alternating current (AC) of one voltage to another voltage without changing the frequency. It consists of coils wrapped around a common core and uses electromagnetic induction.
2. Nikola Tesla proposed using transformers to increase voltage for efficient power transmission over long distances, then step it back down for safe distribution and use. This system replaced the inefficient direct current system developed by Edison.
3. Transformers allow efficient transmission of power by reducing current and thus transmission losses, while maintaining the same power level. They are essential components for modern power distribution systems.
special electrical motor(switched reluctance motor)Srihari Datta
Switched reluctance motors have several advantages over traditional motors, including a simple and robust structure without windings or permanent magnets on the rotor. Torque is produced through the tendency of the rotor poles to align with excited stator poles. The motor has a doubly salient pole structure and nonlinear magnetic characteristics, which can cause torque ripple problems. The motor consists of concentrated stator coils and no coils or magnets on the rotor. Multiple stator/rotor pole combinations are possible. Torque is produced by controlling the timing of current pulses in the stator phases using power electronics. The motor can operate over a wide speed range at high efficiency using various control strategies to regulate the current pulses.
NPTI 15th batch Indian electricity grid code (IEGC)Ravi Pohani
The Indian Electricity Grid Code Regulations outline the technical and commercial rules for utilities connected to or using the Indian electricity transmission system (ISTS). The objectives are to establish rules, guidelines, and standards for planning, development, maintenance, and secure, reliable, economic, and efficient operations of the national and regional power grids. The code defines roles for organizations like the National Load Dispatch Center (NLDC), Regional Load Dispatch Centers (RLDCs), Regional Power Committees (RPCs), Central Transmission Utility (CTU), State Transmission Utilities (STUs), and Central Electricity Authority (CEA) in grid operations and planning. It includes sections on connection codes, operating codes, scheduling and dispatch procedures, and
This document summarizes an optimal power flow analysis, which aims to optimize power system operating conditions subject to constraints. It discusses:
- The objective is to minimize total generation costs by optimizing control variables like generator real/reactive power outputs.
- The optimization is subject to constraints like power flow equations, generator/load balances, voltage and branch flow limits.
- Common objectives include fuel cost minimization, active power loss minimization, and reactive power planning to minimize costs.
- The fuel cost minimization objective function expresses the total generation cost as a function of generator real power outputs, with the goal of minimizing this cost subject to the network constraints.
The document discusses configuration of SIMATIC PCS 7 components including:
1. Configuring automation systems (AS) using hardware configuration (HW Config) including configuring PROFIBUS DP, process image partitions, and symbolic channel names.
2. Configuring SIMATIC PC stations including setting modules, access points, and using the station configuration editor.
3. Configuring network connections between automation systems and OSs using NetPro.
speed control of three phase induction motorAshvani Shukla
This document summarizes various methods for controlling the speed of three-phase induction motors. It discusses that induction motors are commonly used in industry due to their low cost and rugged construction but operate at constant speed. Various speed control methods are then outlined, including stator voltage control, stator frequency control, and stator current control. V/F control is also explained in detail along with its advantages for providing efficient motor speed control. The document concludes by discussing applications in industry and topics for further research.
The document discusses various braking methods for induction motors, including regenerative braking, plugging, and different types of dynamic braking. Regenerative braking occurs when the rotor speed exceeds synchronous speed, causing power to flow in the reverse direction. Plugging involves reversing the phase sequence of the supply to change operation from motoring to braking. Dynamic braking disconnects one phase of the supply or connects the motor to a DC supply, causing the motor to act as a generator and dissipate energy as heat.
There are various types of tariffs that electric companies use to charge customers for electrical energy. The main tariff types are simple tariff, flat rate tariff, block rate tariff, two-part tariff, maximum demand tariff, power factor tariff, and three-part tariff. Each tariff type determines the rate charged per unit of electricity in different ways, such as having a constant rate, different rates for customer classes, or splitting the total charge into multiple components including fixed demand charges and energy usage charges. Tariffs can also differ based on whether a customer receives low tension or high tension supply, and some utilities implement time of day tariffs where rates vary depending on the time electricity is used.
Economic dispatch in power systems - Question Bank Mathankumar S
The document discusses economic dispatch in power systems, including the purpose of economic dispatch, methods for finding economic dispatch such as base load and lambda iteration methods, constraints in modern power systems, definitions of terms like total generator operating cost and incremental fuel cost curves, and the differences between simple load dispatch and economic load dispatch. Economic dispatch aims to minimize operating costs by determining the most economical way to meet power demand, accounting for factors like transmission losses and generator costs.
I had done 1 month summer training on topic " AIR BRAKE SYSTEM USED IN LOCOMOTIVE " from LOCO workshop, LKO....students who are doing so....this file can help them to prepare project file...
in industries like iron and glass the fluid for hydraulic machines are delivered by multistage pumps. this is the basic introduction for clearing the concept of multi stage pumps.
Unit v conventional and solid state speed control of ac drivesDr SOUNDIRARAJ N
This document discusses various methods for controlling the speed of AC induction motors, including stator-side control by varying voltage or frequency, and rotor-side control using cascade control, adding rotor resistance, or slip power recovery schemes. Stator-side control involves changing the stator voltage using autotransformers or resistors, or changing the frequency which varies the synchronous speed. Rotor-side control techniques include cascade control using two motors, adding external resistance in the rotor circuit, or recovering slip power using Kramer or Scherbius systems.
Modeling and Testing of Induction MotorsBirju Besra
Induction motor is an energy conversion device that converts electrical energy into useful rotational kinetic energy, it is an application of the Faraday's law of induction.AC Motors are required in many modern adjustable-speed drives; the requirement is for precise and continuous control of speed and torque with long-term stability and high efficiency. The DC motor satisfies most of these requirements, but its mechanical commutator and the sparking are disadvantages because they may be dangerous in some areas of applications, plus regular maintenance is required and cannot be done when the motor is used at inaccessible locations.
In electrical engineering, a synchronous condenser (sometimes synchronous capacitor or synchronous compensator) is a device identical to a synchronous motor, whose shaft is not connected to anything but spins freely.
This document is the copyright page and contents for a book on extra high voltage AC transmission engineering. It lists the book's copyright as belonging to NewAge International Publishers and notes that no part can be reproduced without written permission. The dedication is to the author's mother and sister for overcoming cancer. It also contains brief introductions and acknowledgements from contributors, including the book's director and others who assisted. The contents provide an outline of the book's 10 chapters which cover topics like line parameters, voltage gradients, corona effects, fields, waves, lightning protection, and overvoltages from switching.
The document discusses power flow analysis, which determines voltages, currents, real power, and reactive power in a power system under steady-state load conditions. It describes the different types of buses in a power system and how they are modeled. The key component of power flow is the bus admittance matrix, which relates nodal voltages to branch currents based on Kirchhoff's current law. Solving the matrix equations provides the voltage magnitude and angle at each bus.
EMF EQUATION OF DC GENERATOR,DC MOTOR|DAY15|BACK EMF,TORQUE OF DC MOTOR|BASIC...Prasant Kumar
#EMF EQUATION OF DC GENERATOR
#EMF EQUATION OF DC MOTOR
#TORQUE EQUATION OF DC MOTOR
# EMF EQUATION OF DC MOTOR IN HINDI
#DERIVATION OF DC MOTOR EMF EQUATION
#FARADAY LAW OF ELECTROMAGNETIC INDUCTION
#back emf in dc motor
#back emf in dc motor in hindi
In this video you will learn about,derivation of dc machine emf equation,back emf,torque equation of dc motor,dc generated,dc motor.To understand electrical machine with trick watch all videos,
MUST UPGRADE YOUR KNOWLEDGE BY FLIPPED LEARNING
#Topic - ELECTRICAL TRANSFORMER
~ Link of all sessions are.
DAY 1 (Need/Definition)
https://youtu.be/BvaykFJ_NoE
DAY 2 (Working principle and Construction)
https://youtu.be/06rgxocihaM
DAY 3 (EMF equation and Turns Ratio)
https://youtu.be/g7e5xBPmv3Y
DAY 4 (Classification of Transformer)
https://youtu.be/6NP5L4MlvY4
DAY 5 ( Ideal and practical transformer on no load)
(Equivalent Transformer)
https://youtu.be/6LCLQC1p3lg
DAY 6 ( Losses in Transformer)
https://youtu.be/ObYNiGgd3hA
DAY 7 (O.C. and S.C. test)
https://youtu.be/8WiJRawHiTce/6LCLQC1p3lg
DAY 8 (Voltage Regulation & Efficiency)
https://youtu.be/6LCLQC1p3lg
DAY 9 (Zero Lecture)
https://youtu.be/N4xWOwgi8I4
DAY 10 (Classification of machine)
https://youtu.be/bmxnU5rC5m4
Construction of Machine
https://youtu.be/34mpphDk3gg
Working Principle of Synchronous Generator & Synchronous Motor
https://youtu.be/bkgf72M8BCY
Working Principle of Induction Motor
https://youtu.be/Lj_iQBoRiK0
Current Source Inverter and Voltage Source Inverter Sadanand Purohit
The document discusses two types of inverters - current source inverters (CSI) and voltage source inverters (VSI). It describes the construction and working of CSI, which uses predetermined source current and load impedance to determine output voltage. VSI uses a constant DC input voltage and feedback diodes. The document also covers applications of CSI and VSI, such as use of CSI for AC motor drives due to regenerative capability, and use of VSI in UPS and AC drives. FACTS devices based on VSI are also summarized, including STATCOM, SSSC and UPFC for controlling transmission line parameters.
1. A transformer is a device that converts alternating current (AC) of one voltage to another voltage without changing the frequency. It consists of coils wrapped around a common core and uses electromagnetic induction.
2. Nikola Tesla proposed using transformers to increase voltage for efficient power transmission over long distances, then step it back down for safe distribution and use. This system replaced the inefficient direct current system developed by Edison.
3. Transformers allow efficient transmission of power by reducing current and thus transmission losses, while maintaining the same power level. They are essential components for modern power distribution systems.
special electrical motor(switched reluctance motor)Srihari Datta
Switched reluctance motors have several advantages over traditional motors, including a simple and robust structure without windings or permanent magnets on the rotor. Torque is produced through the tendency of the rotor poles to align with excited stator poles. The motor has a doubly salient pole structure and nonlinear magnetic characteristics, which can cause torque ripple problems. The motor consists of concentrated stator coils and no coils or magnets on the rotor. Multiple stator/rotor pole combinations are possible. Torque is produced by controlling the timing of current pulses in the stator phases using power electronics. The motor can operate over a wide speed range at high efficiency using various control strategies to regulate the current pulses.
NPTI 15th batch Indian electricity grid code (IEGC)Ravi Pohani
The Indian Electricity Grid Code Regulations outline the technical and commercial rules for utilities connected to or using the Indian electricity transmission system (ISTS). The objectives are to establish rules, guidelines, and standards for planning, development, maintenance, and secure, reliable, economic, and efficient operations of the national and regional power grids. The code defines roles for organizations like the National Load Dispatch Center (NLDC), Regional Load Dispatch Centers (RLDCs), Regional Power Committees (RPCs), Central Transmission Utility (CTU), State Transmission Utilities (STUs), and Central Electricity Authority (CEA) in grid operations and planning. It includes sections on connection codes, operating codes, scheduling and dispatch procedures, and
This document summarizes an optimal power flow analysis, which aims to optimize power system operating conditions subject to constraints. It discusses:
- The objective is to minimize total generation costs by optimizing control variables like generator real/reactive power outputs.
- The optimization is subject to constraints like power flow equations, generator/load balances, voltage and branch flow limits.
- Common objectives include fuel cost minimization, active power loss minimization, and reactive power planning to minimize costs.
- The fuel cost minimization objective function expresses the total generation cost as a function of generator real power outputs, with the goal of minimizing this cost subject to the network constraints.
The document discusses configuration of SIMATIC PCS 7 components including:
1. Configuring automation systems (AS) using hardware configuration (HW Config) including configuring PROFIBUS DP, process image partitions, and symbolic channel names.
2. Configuring SIMATIC PC stations including setting modules, access points, and using the station configuration editor.
3. Configuring network connections between automation systems and OSs using NetPro.
speed control of three phase induction motorAshvani Shukla
This document summarizes various methods for controlling the speed of three-phase induction motors. It discusses that induction motors are commonly used in industry due to their low cost and rugged construction but operate at constant speed. Various speed control methods are then outlined, including stator voltage control, stator frequency control, and stator current control. V/F control is also explained in detail along with its advantages for providing efficient motor speed control. The document concludes by discussing applications in industry and topics for further research.
The document discusses various braking methods for induction motors, including regenerative braking, plugging, and different types of dynamic braking. Regenerative braking occurs when the rotor speed exceeds synchronous speed, causing power to flow in the reverse direction. Plugging involves reversing the phase sequence of the supply to change operation from motoring to braking. Dynamic braking disconnects one phase of the supply or connects the motor to a DC supply, causing the motor to act as a generator and dissipate energy as heat.
There are various types of tariffs that electric companies use to charge customers for electrical energy. The main tariff types are simple tariff, flat rate tariff, block rate tariff, two-part tariff, maximum demand tariff, power factor tariff, and three-part tariff. Each tariff type determines the rate charged per unit of electricity in different ways, such as having a constant rate, different rates for customer classes, or splitting the total charge into multiple components including fixed demand charges and energy usage charges. Tariffs can also differ based on whether a customer receives low tension or high tension supply, and some utilities implement time of day tariffs where rates vary depending on the time electricity is used.
Economic dispatch in power systems - Question Bank Mathankumar S
The document discusses economic dispatch in power systems, including the purpose of economic dispatch, methods for finding economic dispatch such as base load and lambda iteration methods, constraints in modern power systems, definitions of terms like total generator operating cost and incremental fuel cost curves, and the differences between simple load dispatch and economic load dispatch. Economic dispatch aims to minimize operating costs by determining the most economical way to meet power demand, accounting for factors like transmission losses and generator costs.
I had done 1 month summer training on topic " AIR BRAKE SYSTEM USED IN LOCOMOTIVE " from LOCO workshop, LKO....students who are doing so....this file can help them to prepare project file...
in industries like iron and glass the fluid for hydraulic machines are delivered by multistage pumps. this is the basic introduction for clearing the concept of multi stage pumps.
کتاب : تاریخ اسلام دنیا میں اسلام کیسے پھیلا ؟ سیرت خلفائے راشدینؓ سیرت سیدنا فاروق اعظمؓ مسئلہ باغ فدک وحدیث قرطاس حصہ نہم
مرتب : حافظ عبدالوحید حنفی صاحب مدظلہ
The document contains over 100 repetitions of the same Telegram link https://t.me/pasbanehaq1. It provides a single piece of contact information and no other context or details.
THE SACRIFICE HOW PRO-PALESTINE PROTESTS STUDENTS ARE SACRIFICING TO CHANGE T...indexPub
The recent surge in pro-Palestine student activism has prompted significant responses from universities, ranging from negotiations and divestment commitments to increased transparency about investments in companies supporting the war on Gaza. This activism has led to the cessation of student encampments but also highlighted the substantial sacrifices made by students, including academic disruptions and personal risks. The primary drivers of these protests are poor university administration, lack of transparency, and inadequate communication between officials and students. This study examines the profound emotional, psychological, and professional impacts on students engaged in pro-Palestine protests, focusing on Generation Z's (Gen-Z) activism dynamics. This paper explores the significant sacrifices made by these students and even the professors supporting the pro-Palestine movement, with a focus on recent global movements. Through an in-depth analysis of printed and electronic media, the study examines the impacts of these sacrifices on the academic and personal lives of those involved. The paper highlights examples from various universities, demonstrating student activism's long-term and short-term effects, including disciplinary actions, social backlash, and career implications. The researchers also explore the broader implications of student sacrifices. The findings reveal that these sacrifices are driven by a profound commitment to justice and human rights, and are influenced by the increasing availability of information, peer interactions, and personal convictions. The study also discusses the broader implications of this activism, comparing it to historical precedents and assessing its potential to influence policy and public opinion. The emotional and psychological toll on student activists is significant, but their sense of purpose and community support mitigates some of these challenges. However, the researchers call for acknowledging the broader Impact of these sacrifices on the future global movement of FreePalestine.
A Free 200-Page eBook ~ Brain and Mind Exercise.pptxOH TEIK BIN
(A Free eBook comprising 3 Sets of Presentation of a selection of Puzzles, Brain Teasers and Thinking Problems to exercise both the mind and the Right and Left Brain. To help keep the mind and brain fit and healthy. Good for both the young and old alike.
Answers are given for all the puzzles and problems.)
With Metta,
Bro. Oh Teik Bin 🙏🤓🤔🥰
Level 3 NCEA - NZ: A Nation In the Making 1872 - 1900 SML.pptHenry Hollis
The History of NZ 1870-1900.
Making of a Nation.
From the NZ Wars to Liberals,
Richard Seddon, George Grey,
Social Laboratory, New Zealand,
Confiscations, Kotahitanga, Kingitanga, Parliament, Suffrage, Repudiation, Economic Change, Agriculture, Gold Mining, Timber, Flax, Sheep, Dairying,
Andreas Schleicher presents PISA 2022 Volume III - Creative Thinking - 18 Jun...EduSkills OECD
Andreas Schleicher, Director of Education and Skills at the OECD presents at the launch of PISA 2022 Volume III - Creative Minds, Creative Schools on 18 June 2024.
CapTechTalks Webinar Slides June 2024 Donovan Wright.pptxCapitolTechU
Slides from a Capitol Technology University webinar held June 20, 2024. The webinar featured Dr. Donovan Wright, presenting on the Department of Defense Digital Transformation.