Overview
Work History
Education
Skills
Resume
Timeline
Generic

Jonathan Bueler

Mesa,AZ

Overview

25
25
years of professional experience

Work History

Field Operator/Dispatcher

Penhall Company
03.2022 - Current

Coordinate and schdule incoming work from Account Mangers with available equipment operators and laborers

Communicate with Operations Manager equipment needs specific to job and scope of work

Conduct bi-weekly planning and coordination meeting concerning scheduling and upcoming work with branch Operations Management, Administrative, and Account Managers

Demonstrated adaptability in evolving situations by adjusting strategies in real-time as new information became available.

Field Operator

Blade Runners Inc.
05.2021 - 03.2022

Operate concrete saw-cutting and drilling equipment daily in accordance with workplace safety standards and customer requirements


Assist co-workers with job set-up, equipment operation, demolition, and clean up.


Coordinate with Operations Manager unexpected or additional equipment needed for job completion


Ensure proper record of time on job, and work performed to allow for accurate billing

Concrete Saw, Drill Operator & Laborer

A-Core Inc.
01.2020 - 05.2021

Assist more experienced concrete saw and drilling operators on job sites

Operate flat-saw, hand-saw, core-drill, pneumatic breaking hammer, and wall-saw equipment

Ensure proper record of time on job, and work performed to allow for proper and accurate billing

Concrete Form-Setter & Finsher

Turley Construction
12.2017 - 01.2020

Assist with custom residential home foundation lay-out using laser plotting device


Assist back-hoe operator with excavation and proper depth of foundational footings


Form, pour, and finish concrete footings, stem-walls, floors, and exterior concrete pads and driveways

Education

Successful Completion - Transportation And Logistics

Army Logistics University
Fort Lee
01.2014

Bachelor - Broadcasting

Arizona State University
Tempe, AZ
05.2001

Skills

  • Customer service
  • Data entry
  • Decision-making
  • Active listening

Resume

1, Alkali Metals, metals, 1, very reactive, softness, color of silver, shininess, low density, Alkali metals (AL kuh LIE MET uhlz) are elements in Group 1 of the periodic table. They share physical and chemical properties. Alkali metals are the most reactive metals because their atoms can easily give away the one outer-level electron. Pure alkali metals are often stored in oil. The oil keeps them from reacting with water and oxygen in the air. Alkali metals are so reactive that in nature they are found only combined with other elements. Compounds formed from alkali metals have many uses. For example, sodium chloride (table salt) is used to flavor your food. Potassium bromide is used in photography., 2, Alkaline-Earth Metals, metals, 2, very reactive but less reactive than alkali metals, color of silver, higher densities than alkali metals, Alkaline-earth metals (AL kuh LIEN UHRTH MET uhlz) are less reactive than alkali metals are. Atoms of alkaline-earth metals have two outer-level electrons. It is more difficult for atoms to give two electrons than to give one when joining with other atoms. Group 2 elements and their compounds have many uses. For example, magnesium can be mixed with other metals to make low-density materials used in airplanes. And compounds of calcium are found in cement, chalk, and even you., 3, 12, Transition Metals, metals, 1 or 2, less reactive than alkaline-earth metals, shininess, good conductors of thermal energy and electric current, higher densities and melting points than elements in Groups 1 and 2 (except for mercury), Groups 3-12 do not have individual names. Instead, all of these groups are called transition metals. The atoms of transition metals do not give away their electrons as easily as atoms of the Group 1 and Group 2 metals do. So, transition metals are less reactive than alkali metals and alkaline-earth metals are., Lanthanides and Actinides, The lanthanides and actinides are groups of elements in the periodic table. They are the elements that are often listed below the main section of the periodic table. There are thirty total elements in the lanthanides and actinides. They are often called the 'inner transition metals.', The lanthanides are the elements with atomic numbers from 57 to 71. These 15 metals (along with scandium and yttrium) are often called the rare earth elements. They are all silvery-white metals which are often found in the same ores. They are called the lanthanides because they exhibit similar chemical properties to lanthanum, the first element in the group., Actinides are the 15 elements with atomic numbers from 89 to 103. They are named after the first element in the series, actinium. The actinides group includes mostly man-made elements with only a few exceptions such as uranium and thorium. The actinides are most known for the elements uranium and plutonium which are used in nuclear reactors and nuclear bombs., Lanthanides are used in products such as hybrid cars, superconductors, and permanent magnets., The actinide americium is used in smoke detectors., 13, Boron Group, one metalloid and five metals, 3, reactive, solids at room temperature, The most common element from Group 13 is aluminum. In fact, aluminum is the most abundant metal in Earth's crust. Until the 1880s, however, aluminum was considered a precious metal because the process used to make pure aluminum was very expensive. During the 1850s and 1860s, Emperor Napoleon III of France used aluminum dinnerware because aluminum was more valuable than gold. Today, the process of making pure aluminum is easier and less expensive than it was in the 1800s. Aluminum is now an important metal used in making aircraft parts. Aluminum is also used to make lightweight automobile parts, foil, cans, and siding., 14, Carbon Group, one nonmetal, two metalloids, and three metals, 4, varies among the elements, solids at room temperature, The nonmetal carbon can be found uncombined in nature. Carbon also forms a wide variety of compounds. Some of these compounds, such as proteins, fats, and carbohydrates, are necessary for living things on Earth. The metalloids silicon and germanium, also in Group 14, are used to make computer chips. The metal tin is useful because it is not very reactive. For example, a tin can is really made of steel coated with tin. Because the tin is less reactive than the steel is, the tin keeps the iron in the steel from rusting., 15, Nitrogen Group, two nonmetals, two metalloids, and two metals, 5, varies among the elements, solids at room temperature (except for nitrogen), Nitrogen, which is a gas at room temperature, makes up about 80% of the air you breathe. Nitrogen removed from air can be reacted with hydrogen to make ammonia for fertilizers. Although nitrogen is not very reactive, phosphorus is extremely reactive. In fact, in nature phosphorus is only found combined with other elements., 16, Oxygen Group, three nonmetals, one metalloid, and one metal, 6, Reactive, All but oxygen are solid at room temperature., Oxygen makes up about 20% of air. Oxygen is necessary for substances to burn. Oxygen is also important to most living things. Sulfur is another commonly found member of Group 16. Sulfur can be found as a yellow solid in nature. It is used to make sulfuric acid, the most widely used compound in the chemical industry., 17, Halogens, nonmetals, 7, very reactive, poor conductors of electric current, violent reactions with alkali metals to form salts, never in uncombined form in nature, Halogens (HAL oh juhnz) are very reactive nonmetals because their atoms need to gain only one electron to have a complete outer level. The atoms of halogens combine readily with other atoms, especially metals, to gain that missing electron. The reaction of a halogen with a metal makes a salt, such as sodium chloride. Both chlorine and iodine are used as disinfectants. Chlorine is used to treat water. Iodine mixed with alcohol is used in hospitals. Although the chemical properties of the halogens are similar, the physical properties are quite different., 18, Noble Gases, nonmetals, 8 (except helium, which has 2), unreactive, colorless, odorless gases at room temperature, Noble gases are unreactive nonmetals and are in Group 18 of the periodic table. The atoms of these elements have a full set of electrons in their outer level. So, they do not need to lose or gain any electrons. Under normal conditions, they do not react with other elements. Earth's atmosphere is almost 1% argon. But all the noble gases are found in small amounts. The unreactivity of the noble gases makes them useful. For example, ordinary light bulbs last longer when they are filled with argon. Because argon is unreactive, it does not react with the metal filament in the light bulb even when the filament gets hot. A more reactive gas might react with the filament, causing the light to burn out. The low density of helium makes blimps and weather balloons float., Hydrogen, 1, reactive, colorless, odorless gas at room temperature, low density, explosive reactions with oxygen, The properties of hydrogen do not match the properties of any single group, so hydrogen is set apart from the other elements in the table. Hydrogen is above Group 1 because atoms of the alkali metals also have only one electron in their outer level. Atoms of hydrogen can give away one electron when they join with other atoms. However, the physical properties of hydrogen are more like those of nonmetals than those of metals. So, hydrogen really is in a group of its own. Hydrogen is found in stars. In fact, it is the most abundant element in the universe. Its reactive nature makes it useful as a fuel in rockets.

Timeline

Field Operator/Dispatcher

Penhall Company
03.2022 - Current

Field Operator

Blade Runners Inc.
05.2021 - 03.2022

Concrete Saw, Drill Operator & Laborer

A-Core Inc.
01.2020 - 05.2021

Concrete Form-Setter & Finsher

Turley Construction
12.2017 - 01.2020

Successful Completion - Transportation And Logistics

Army Logistics University

Bachelor - Broadcasting

Arizona State University

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