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Edited -- Achieving work life balance is possible with effective time management. Learning time management tips will not only help you manage your time better but also boost personal productivity. With that said, here are some time management strategies you can try:
1. Pareto Analysis (a.k.a., the 80/20 rule)
The 80/20 rule is a technique created by the Italian economist Vilfredo Pareto. It’s the idea that 20% of actions are responsible for 80% of outcomes. The goal of Pareto analysis is to help you prioritize tasks that are most effective at solving problems.
2. Pomodoro Technique
The Pomodoro Technique was created by entrepreneur and author Francesco Cirillo. This technique uses a timer to break down your work into intervals. Each interval is known as a Pomodoro, named after the tomato-shaped timer that Cirillo created. 
3. Eisenhower Matrix
Before Dwight Eisenhower became president in 1953, he served in the U.S. Army as an Allied Forces Commander during World War II. He was faced with difficult decisions every day that led him to invent what is now called the Eisenhower matrix, or the urgent-important matrix.
4. Parkinson’s Law
British historian Cyril Northcote Parkinson became famous for the phrase “work expands so as to fill the time available for its completion.” In other words, the amount of time you give yourself to complete a specific task is the amount of time it will take you to complete that task.
5. Time Blocking Method
Inventor Elon Musk is known for being productive. He manages his time so efficiently that he can work over 80 hours a week and still make time for himself. What’s his secret? Time blocking.
6. Getting Things Done (GTD) Method
Created by author David Allen, this process helps you get things done by recording tasks on paper and then breaking them down into actionable work items.
7. Rapid Planning Method (RPM)
“RPM” stands for “rapid planning method” or “result, purpose, and massive action plan.” It was developed by motivational speaker Tony Robbins as a way to train your brain to focus on a vision of what you want so you can make it real.
8. Pickle Jar Theory
This theory helps you figure out what is useful and what is not useful in your daily life. It allows you to plan tasks with time to spare and set priorities for your day.
9. Eat That Frog Technique
This technique is named after a Mark Twain quote: “Eat a live frog the first thing in the morning and nothing worse will happen to you the rest of the day.” Start your day by doing the most onerous tasks first and getting them out of the way.

Natural resources are the raw materials and sources of energy that we use. Petrol, metals, soil, sand, wind, water, and everything in between are natural resources. Manufactured items such as plastic, sheet metal, fabrics, microchips, electricity and concrete are not natural resources, but are most definitely derived from natural resources.
Natural resources are the raw materials and sources of energy that we use.
Petrol, metals, soil, sand, wind, water and everything in between are natural resources. Manufactured items such as plastic, sheet metal, fabrics, microchips, electricity and concrete are not natural resources, but are most definitely derived from natural resources.
Think about the relationship between natural resources and manufactured products. In essence, we call them “natural” resources because they are things human society uses that are created (or were created in the case of fossil fuels) without human intervention.
Perpetually Renewable Resources
Perpetually renewable resources are the easiest resources to understand; these are natural resources that are constantly replenished by the Sun’s and Earth’s natural processes. For example, every day the sun delivers an average of 198 Watts of energy to every square meter (m
) of the Earth’s surface. For comparison a standard incandescent light bulb in a bedside lamp uses 40 Watts, or a 100kg person climbing a step in 2 seconds uses roughly 200 Watts. Every day without fail for the last 5 billion years (plus or minus a few hundred million years) the Sun has delivered this solar energy.
 
Together with geothermal energy (heat from the Earth’s interior), the Sun’s perpetual energy powers the winds, ocean currents, precipitation and most of the Earth’s plant life. Solar and geothermal natural resources currently energise a significant and growing percentage of many nations’ electrical grids. It is perpetually renewable in the sense that no matter how much we use in terms of human time-scales (e.g decades to millennia), the Sun and the Earth will always make more.
 
Intermediate Renewable Resources
Intermediate renewable resources are only renewable resources if we don’t use them too quickly. They are resources such as freshwater, soil, crops and trees for timber. If we didn’t use them, they would be perpetually renewable, but because they require time (on human time-scales) to regenerate or grow, we can overuse them until they are no longer available.
 
Freshwater is a great example of an intermediate renewable resource. Through the water cycle, the sun evaporates water from the surface of saltwater oceans that travels over land and falls back to earth as freshwater rain. This rain fills the lakes, rivers and aquifers we use for agriculture, industry and drinking water. If we use this freshwater at the same rate as the rain recharging it, then we won’t run out. If we use the freshwater faster than it recharges, then we will. Intermediate renewable resources must be carefully managed to ensure they are not depleted.
 
Non-renewable Resources
The last category of natural resources are the non-renewables. These are resources that will not regenerate on human time-scales. Once they have been depleted they will no longer be available and no more will be made. The most common examples of non-renewable resources are fossil fuels, so-called because most were created by processes that take millions of years. Fossil fuels include crude oil, natural gas, coal and uranium. Other non-renewable resources include metals, lithium and rare-Earth elements (REE’s), but it’s important to remember that while we may eventually run out of mineable metals and REE’s, with careful waste management, these can be recovered through recycling. However, it is not the same for fossil fuels as using them for energy alters their chemistry so they are no longer useful.

Classroom Interventions for Attention Deficit/ Hyperactivity Disorder Considerations Packet

Primer text from The College of William & MaryADHD is one of the most commonly diagnosed conditions of children (Centers for DiseaseControl and Prevention, 2015). 
In a 2016 Centers for Disease Control and Prevention study, scientists found that 6.1 million children aged 2-17 years living in the U.S. had been diagnosed with attention-deficit/hyperactivity disorder (ADHD), which is similar to previous en

Ages 6-11: Approximately 2.4 million children
Ages 12-17: Approximately 3.3 million children

The diagnostic term attention deficit/hyperactivity disorder (ADHD) refers to individuals who display patterns of inattention, impulsivity, and overactive behavior that interfere with daily functioning (American Psychiatric Association [APA], 2013).
The Diagnostic and Statistical Manual (DSM) V (APA, 2013) criteria for diagnosing ADHD listthree types of ADHD and the accompanying characteristics.