Job Opportunities to Say Get a Prospect Ln Mv District PRESIDENT: Stri Ke

Total Page:16

File Type:pdf, Size:1020Kb

Job Opportunities to Say Get a Prospect Ln Mv District PRESIDENT: Stri Ke M ay lt! , 1 9 7 7 LR ~4q ln terms of allocation of these funds, but if you want to play funny games with employment of peoole and with Job opportunities to say get a prospect ln mv district which goes against the entire grain of the bill, and when you get a veto back on some of those pro,sects in your dlstrlct, don't come running crying to me telling me you need thirty votes. I want that to be understood and I want you to understand perfectlv clea that I knew what was going to happen when this bill came out ln this form. We were going to trv to divide up the pie for pro„'ects ln our districts w'thout anv regard for the full intent of the bill and that ls tc solve some of the unemployment problems and that is p ett y , that ls ridiculous, that is nonsense. I think we ought to tell the Governor that he ought to take full advantage of the state allocat1on under the Public Works Employment Act of 1977 and we ought to let lt go at that. Let him determine lt by criteria, not by :he fact I am going to get a little help at the Gretna .=.tate Park or the Fish Hatchery or Sam Cullan ls going to get lt at Fort Rob and you can tell how the votes are goinp. I . is on that basis. It ls not on employment and vou had better get it back to employment and you had better realize that this ls a serious, serious blow lf adooted to 549, because with that section ln there, and I ar sure the Governor is going to strike lt out, and I hone he does, then he and I will be ln total agreement for once. That will make us both happy. Rut I will not support this bill ln an override with this kind of language in there and I can assure you there is coin~ to be some things cut out of it. I oppose the >ereuter amendment. PRESIDENT: Senator Simon calls for the orevlous question. Are t h er e f i ve s e c o nds? CLERK: To amend, Mr. President. PRESIDENT: Amend. That ls in order. Yes, read the motion. CLERK: M r . Pr e si d e n t , — read. ( See page 2117, L e 4 1sl a t l v e Journal. ) Signed Senator Newell. P RESIDENT: S t ri k e p a r a gr aphs ( a ) a n d ( b ) ? C LERK: Y e s . PRESIDEN : We have already defeated, Senator Duis, weren't you (a) and Senator Lewis was (b). You moved t o s t r i ke ( a ) ". SE!JATOR DUIS: I moved to strike (a). PRESIDE".1 : A n d y o u h a d ( b) ? SENATOR F. LEWIS: Yes, Mr. President, may I comment? PRESIDENT: No, not yet. The Chair ls going to rule the notion out of order. It ls a motion to reconsider. SENA OR !JEWELL: I would like to appeal the r ul i n v' o " t he Chai r . 04696.
Recommended publications
  • Configuring UNIX-Specific Settings: Creating Symbolic Links : Snap
    Configuring UNIX-specific settings: Creating symbolic links Snap Creator Framework NetApp September 23, 2021 This PDF was generated from https://docs.netapp.com/us-en/snap-creator- framework/installation/task_creating_symbolic_links_for_domino_plug_in_on_linux_and_solaris_hosts.ht ml on September 23, 2021. Always check docs.netapp.com for the latest. Table of Contents Configuring UNIX-specific settings: Creating symbolic links . 1 Creating symbolic links for the Domino plug-in on Linux and Solaris hosts. 1 Creating symbolic links for the Domino plug-in on AIX hosts. 2 Configuring UNIX-specific settings: Creating symbolic links If you are going to install the Snap Creator Agent on a UNIX operating system (AIX, Linux, and Solaris), for the IBM Domino plug-in to work properly, three symbolic links (symlinks) must be created to link to Domino’s shared object files. Installation procedures vary slightly depending on the operating system. Refer to the appropriate procedure for your operating system. Domino does not support the HP-UX operating system. Creating symbolic links for the Domino plug-in on Linux and Solaris hosts You need to perform this procedure if you want to create symbolic links for the Domino plug-in on Linux and Solaris hosts. You should not copy and paste commands directly from this document; errors (such as incorrectly transferred characters caused by line breaks and hard returns) might result. Copy and paste the commands into a text editor, verify the commands, and then enter them in the CLI console. The paths provided in the following steps refer to the 32-bit systems; 64-bit systems must create simlinks to /usr/lib64 instead of /usr/lib.
    [Show full text]
  • Humidity Definitions
    ROTRONIC TECHNICAL NOTE Humidity Definitions 1 Relative humidity Table of Contents Relative humidity is the ratio of two pressures: %RH = 100 x p/ps where p is 1 Relative humidity the actual partial pressure of the water vapor present in the ambient and ps 2 Dew point / Frost the saturation pressure of water at the temperature of the ambient. point temperature Relative humidity sensors are usually calibrated at normal room temper - 3 Wet bulb ature (above freezing). Consequently, it generally accepted that this type of sensor indicates relative humidity with respect to water at all temperatures temperature (including below freezing). 4 Vapor concentration Ice produces a lower vapor pressure than liquid water. Therefore, when 5 Specific humidity ice is present, saturation occurs at a relative humidity of less than 100 %. 6 Enthalpy For instance, a humidity reading of 75 %RH at a temperature of -30°C corre - 7 Mixing ratio sponds to saturation above ice. by weight 2 Dew point / Frost point temperature The dew point temperature of moist air at the temperature T, pressure P b and mixing ratio r is the temperature to which air must be cooled in order to be saturated with respect to water (liquid). The frost point temperature of moist air at temperature T, pressure P b and mixing ratio r is the temperature to which air must be cooled in order to be saturated with respect to ice. Magnus Formula for dew point (over water): Td = (243.12 x ln (pw/611.2)) / (17.62 - ln (pw/611.2)) Frost point (over ice): Tf = (272.62 x ln (pi/611.2)) / (22.46 -
    [Show full text]
  • Cygwin User's Guide
    Cygwin User’s Guide Cygwin User’s Guide ii Copyright © Cygwin authors Permission is granted to make and distribute verbatim copies of this documentation provided the copyright notice and this per- mission notice are preserved on all copies. Permission is granted to copy and distribute modified versions of this documentation under the conditions for verbatim copying, provided that the entire resulting derived work is distributed under the terms of a permission notice identical to this one. Permission is granted to copy and distribute translations of this documentation into another language, under the above conditions for modified versions, except that this permission notice may be stated in a translation approved by the Free Software Foundation. Cygwin User’s Guide iii Contents 1 Cygwin Overview 1 1.1 What is it? . .1 1.2 Quick Start Guide for those more experienced with Windows . .1 1.3 Quick Start Guide for those more experienced with UNIX . .1 1.4 Are the Cygwin tools free software? . .2 1.5 A brief history of the Cygwin project . .2 1.6 Highlights of Cygwin Functionality . .3 1.6.1 Introduction . .3 1.6.2 Permissions and Security . .3 1.6.3 File Access . .3 1.6.4 Text Mode vs. Binary Mode . .4 1.6.5 ANSI C Library . .4 1.6.6 Process Creation . .5 1.6.6.1 Problems with process creation . .5 1.6.7 Signals . .6 1.6.8 Sockets . .6 1.6.9 Select . .7 1.7 What’s new and what changed in Cygwin . .7 1.7.1 What’s new and what changed in 3.2 .
    [Show full text]
  • Μmachine Definitions
    Machine/Code For the final part of the CS450 project, you are to complete a fully functional Pascal compiler. Since it would be impractical to have you generate assembly code for a real machine (with all the intricacies of the target machine), we have created a virtual machine that has been designed specifically for a Pascal compiler. The Machine (and is associated assembly language Code) greatly simplifies the task of code generation while still requiring you to handle many of the problems faced by other compiler writers. At this point in time, you should have written a scanner and parser for Pascal, should be working on the symbol table and should be thinking about semantic processing and code generation. The following information about the Machine and Code is provided to assist you in your design and implementation of the remaining parts of the Pascal compiler project: Machine Specification: The Machine is a virtual machine (simulated by a program) with the following hardware characteristics: Separate instruction space (for assembly code) and RAM (for data storage/retrieval) 10 general purpose registers (D0 - D9) Special stack pointer register (SP) The Machine is a stack-based machine; all memory is allocated/deallocated on the data stack residing in RAM: The data stack supports types: Integer, Float/Fixed, Strings. All data types have the same size of 1. The data stack grows upwards (starts at 0, pushes increment the SP, pops decrement the SP) Supported Data Types Integer: As defined in the Pascal tokens document. Size: 1. Float/Fixed: Numbers represented as floating point or fixed point are supported and have a size of 1.
    [Show full text]
  • Linux Cheat Sheet
    1 of 4 ########################################### # 1.1. File Commands. # Name: Bash CheatSheet # # # # A little overlook of the Bash basics # ls # lists your files # # ls -l # lists your files in 'long format' # Usage: A Helpful Guide # ls -a # lists all files, including hidden files # # ln -s <filename> <link> # creates symbolic link to file # Author: J. Le Coupanec # touch <filename> # creates or updates your file # Date: 2014/11/04 # cat > <filename> # places standard input into file # Edited: 2015/8/18 – Michael Stobb # more <filename> # shows the first part of a file (q to quit) ########################################### head <filename> # outputs the first 10 lines of file tail <filename> # outputs the last 10 lines of file (-f too) # 0. Shortcuts. emacs <filename> # lets you create and edit a file mv <filename1> <filename2> # moves a file cp <filename1> <filename2> # copies a file CTRL+A # move to beginning of line rm <filename> # removes a file CTRL+B # moves backward one character diff <filename1> <filename2> # compares files, and shows where differ CTRL+C # halts the current command wc <filename> # tells you how many lines, words there are CTRL+D # deletes one character backward or logs out of current session chmod -options <filename> # lets you change the permissions on files CTRL+E # moves to end of line gzip <filename> # compresses files CTRL+F # moves forward one character gunzip <filename> # uncompresses files compressed by gzip CTRL+G # aborts the current editing command and ring the terminal bell gzcat <filename> #
    [Show full text]
  • The Evolution of the Unix Time-Sharing System*
    The Evolution of the Unix Time-sharing System* Dennis M. Ritchie Bell Laboratories, Murray Hill, NJ, 07974 ABSTRACT This paper presents a brief history of the early development of the Unix operating system. It concentrates on the evolution of the file system, the process-control mechanism, and the idea of pipelined commands. Some attention is paid to social conditions during the development of the system. NOTE: *This paper was first presented at the Language Design and Programming Methodology conference at Sydney, Australia, September 1979. The conference proceedings were published as Lecture Notes in Computer Science #79: Language Design and Programming Methodology, Springer-Verlag, 1980. This rendition is based on a reprinted version appearing in AT&T Bell Laboratories Technical Journal 63 No. 6 Part 2, October 1984, pp. 1577-93. Introduction During the past few years, the Unix operating system has come into wide use, so wide that its very name has become a trademark of Bell Laboratories. Its important characteristics have become known to many people. It has suffered much rewriting and tinkering since the first publication describing it in 1974 [1], but few fundamental changes. However, Unix was born in 1969 not 1974, and the account of its development makes a little-known and perhaps instructive story. This paper presents a technical and social history of the evolution of the system. Origins For computer science at Bell Laboratories, the period 1968-1969 was somewhat unsettled. The main reason for this was the slow, though clearly inevitable, withdrawal of the Labs from the Multics project. To the Labs computing community as a whole, the problem was the increasing obviousness of the failure of Multics to deliver promptly any sort of usable system, let alone the panacea envisioned earlier.
    [Show full text]
  • Oracle Database Administrator's Reference for UNIX-Based Operating Systems
    Oracle® Database Administrator’s Reference 10g Release 2 (10.2) for UNIX-Based Operating Systems B15658-06 March 2009 Oracle Database Administrator's Reference, 10g Release 2 (10.2) for UNIX-Based Operating Systems B15658-06 Copyright © 2006, 2009, Oracle and/or its affiliates. All rights reserved. Primary Author: Brintha Bennet Contributing Authors: Kevin Flood, Pat Huey, Clara Jaeckel, Emily Murphy, Terri Winters, Ashmita Bose Contributors: David Austin, Subhranshu Banerjee, Mark Bauer, Robert Chang, Jonathan Creighton, Sudip Datta, Padmanabhan Ganapathy, Thirumaleshwara Hasandka, Joel Kallman, George Kotsovolos, Richard Long, Rolly Lv, Padmanabhan Manavazhi, Matthew Mckerley, Sreejith Minnanghat, Krishna Mohan, Rajendra Pingte, Hanlin Qian, Janelle Simmons, Roy Swonger, Lyju Vadassery, Douglas Williams This software and related documentation are provided under a license agreement containing restrictions on use and disclosure and are protected by intellectual property laws. Except as expressly permitted in your license agreement or allowed by law, you may not use, copy, reproduce, translate, broadcast, modify, license, transmit, distribute, exhibit, perform, publish, or display any part, in any form, or by any means. Reverse engineering, disassembly, or decompilation of this software, unless required by law for interoperability, is prohibited. The information contained herein is subject to change without notice and is not warranted to be error-free. If you find any errors, please report them to us in writing. If this software or related documentation is delivered to the U.S. Government or anyone licensing it on behalf of the U.S. Government, the following notice is applicable: U.S. GOVERNMENT RIGHTS Programs, software, databases, and related documentation and technical data delivered to U.S.
    [Show full text]
  • Common Equations Used in Chemistry Equation For
    Common Equations Used in Chemistry m Equation for density: d= v 5 Converting ˚F to ˚C: ˚C = (˚F - 32) x 9 9 Converting ˚C to ˚F: ˚F = ˚C x 5 + 32 Converting ˚C to K: K = (˚C + 273.15) n x molar mass of element Percent composition of an element = molar mass of compound x 100% - where n = the number of moles of the element in one mole of the compound actual yield % yield = theoretical yield x 100% moles of solute molarity (M) = liters of solution Dilution of Solution: MiVi = MfV f Boyle’s law - Constant T and n: PV = k Boyle’s law - For calculating changes in pressure or volume: P1V1 = P2V 2 V Charles’ law - Constant P and n: T = k V1 V 2 Charles’ law - For calculating temperature or volume changes: = T1 T2 Avogadro’s law - Constant P and T: V = kn Ideal Gas equation: PV = nRT Calculation of changes in pressure, temperature, or volume of gas when n is constant: P1V1 P2V 2 = T1 T2 PM Calculation of density or molar mass of gas: d = RT Dalton’s law of partial pressures - for calculating partial pressures: Pi = XiPT 3RT 0.5 Root-mean-square speed of gas molecules: urms = ( M ) Van der waals equation; for calculating the pressure of a nonideal gas: an 2 (P + ) (V - nb) = nRT V 2 Definition of heat capacity, where s is specific heat: C = ms Calculation of heat change in terms of specific heat : q = msDt Calculation of heat change in terms of heat capacity: q = CDt q1q2 Electrical force: F = k el r2 q1q2 Potential energy: V = k r Calculation of standard enthalpy of reaction: DH˚rxn = å nDH˚f (products) - å mDH˚f (reactants) [where n and m are coefficients in equation] Mathematical statement of the first law of thermodynamics: DE = q + w Work done in gas expansion or compression: w = - PDV Definition of enthalpy: H = E + PV Enthalpy (or energy) change for a constant-pressure process: DH = DE +PDV Enthalpy (or energy) change for a constant-pressure process: DE = DH - RTDn, where n is the change in the number of moles of gas.
    [Show full text]
  • C++ Basics Cs246, Fall 2020
    ASSIGNMENT #2: C++ BASICS CS246, FALL 2020 Assignment #2: C++ basics Due Date 1: Wednesday, October 7, 2020, 5:00 pm Due Date 2: Wednesday, October 21, 2020, 5:00 pm Online Quiz: Wednesday, October 28, 2020, 5:00 pm Topics that must have been completed before starting Due Date 1: 1. Software Testing 2. produceOutputs and runSuite from A1 Topics that must have been completed before starting Due Date 2: 1. C++: Introduction to C++ 2. Preprocessing and Compilation Learning objectives: • C++ I/O (standard, file streams) and output formatting • argv and argc • C++ strings and stringstreams • separate compilation and Makefiles • Questions 1a, 2a, and 3a are due on Due Date 1; questions 1b, 2b, 3b, 4b, 5 and 6 are due on Due Date 2. You must submit the online quiz on Learn by the Quiz date. • On this and subsequent assignments, you will take responsibility for your own testing. This assignment is designed to get you into the habit of thinking about testing before you start writing your program. If you look at the deliverables and their due dates, you will notice that there is no C++ code due on Due Date 1. Instead, you will be asked to submit test suites for C++ programs that you will later submit by Due Date 2. Test suites will be in a format compatible with that of the latter questions of Assignment 1, so if you did a good job writing your runSuite script, that experience will serve you well here. • Design your test suites with care; they are your primary tool for verifying the correctness of your code.
    [Show full text]
  • Unix Commands (09/04/2014)
    Unix Commands (09/04/2014) • Access control – login <login_name> – exit – passwd <login_name> – yppassswd <loginname> – su – • Login as Super user – su <login> • Login as user <login> • Root Prompt – [root@localhost ~] # • User Prompt – [bms@raxama ~] $ On Line Documentation – man <command/topic> – info <command/topic> • Working with directories – mkdir –p <subdir> ... {-p create all directories in path if not present} mkdir –p /2015/Jan/21/14 will create /2015, Jan, 21 & 14 in case any of these is absent – cd <dir> – rm -r <subdir> ... Man Pages • 1 Executable programs or shell commands • 2 System calls (functions provided by the kernel) • 3 Library calls (functions within program libraries) • 4 Special files (usually found in /dev) • 5 File formats and conventions eg /etc/passwd • 6 Games • 7 Miscellaneous (including macro packages and conventions), e.g. man(7), groff(7) • 8 System administration commands (usually only for root) • 9 Kernel routines [Non standard] – man grep, {awk,sed,find,cut,sort} – man –k mysql, man –k dhcp – man crontab ,man 5 crontab – man printf, man 3 printf – man read, man 2 read – man info Runlevels used by Fedora/RHS Refer /etc/inittab • 0 - halt (Do NOT set initdefault to this) • 1 - Single user mode • 2 - Multiuser, – without NFS (The same as 3, if you do not have networking) • 3 - Full multi user mode w/o X • 4 - unused • 5 - X11 • 6 - reboot (Do NOT set init default to this) – init 6 {Reboot System} – init 0 {Halt the System} – reboot {Requires Super User} – <ctrl> <alt> <del> • in tty[2-7] mode – tty switching • <ctrl> <alt> <F1-7> • In Fedora 10 tty1 is X.
    [Show full text]
  • Gnu Coreutils Core GNU Utilities for Version 5.93, 2 November 2005
    gnu Coreutils Core GNU utilities for version 5.93, 2 November 2005 David MacKenzie et al. This manual documents version 5.93 of the gnu core utilities, including the standard pro- grams for text and file manipulation. Copyright c 1994, 1995, 1996, 2000, 2001, 2002, 2003, 2004, 2005 Free Software Foundation, Inc. Permission is granted to copy, distribute and/or modify this document under the terms of the GNU Free Documentation License, Version 1.1 or any later version published by the Free Software Foundation; with no Invariant Sections, with no Front-Cover Texts, and with no Back-Cover Texts. A copy of the license is included in the section entitled “GNU Free Documentation License”. Chapter 1: Introduction 1 1 Introduction This manual is a work in progress: many sections make no attempt to explain basic concepts in a way suitable for novices. Thus, if you are interested, please get involved in improving this manual. The entire gnu community will benefit. The gnu utilities documented here are mostly compatible with the POSIX standard. Please report bugs to [email protected]. Remember to include the version number, machine architecture, input files, and any other information needed to reproduce the bug: your input, what you expected, what you got, and why it is wrong. Diffs are welcome, but please include a description of the problem as well, since this is sometimes difficult to infer. See section “Bugs” in Using and Porting GNU CC. This manual was originally derived from the Unix man pages in the distributions, which were written by David MacKenzie and updated by Jim Meyering.
    [Show full text]
  • Intro to Unix 2018
    Introduction to *nix Bill Renaud, OLCF ORNL is managed by UT-Battelle for the US Department of Energy Background • UNIX operating system was developed in 1969 by Ken Thompson and Dennis Ritchie • Many “UNIX-like” OSes developed over the years • UNIX® is now a trademark of The Open Group, which maintains the Single UNIX Specification • Linux developed by Linus Torvalds in 1991 • GNU Project started by Richard Stallman in 1983 w/aim to provide free, UNIX-compatible OS • Many of the world’s most powerful computers use Linux kernel + software from the GNU Project References: 1www.opengroup.org/unix 2https://en.wikipedia.org/wiki/Linux 2 3https://www.gnu.org/gnu/about-gnu.html This Presentation • This presentation will focus on using *nix operating systems as a non-privileged user in an HPC environment – Assumes you’re using a ‘remote’ system – No info on printing, mounting disks, etc. • We’ll focus on systems using the Linux kernel + system software from the GNU project since that’s so prevalent • Two-Part – Basics: general information, commands – Advanced: advanced commands, putting it all together, scripts, etc. 3 This Presentation • May seem a bit disjoint at first – Several basic concepts that don’t flow naturally but later topics build upon – Hopefully everything will come together, but if not… • I’ll cover (what I hope is) some useful info but can’t cover it all – People write thousand-page books on this, after all • Please ask questions! 4 Basics Terminology • User – An entity that interacts with the computer. Typically a person but could also be for an automated task.
    [Show full text]