Monday, May 8, 2017



Newton's Three Laws of Motion

Force
Force is the push or pull that one object exerts on another. If you push a book across the table, the power that you use to push that book is force. If you pull a shade down on a window, the power that you use is force. Force can affect an object in one of three ways. Force can start the object moving or stop the object from moving. Force can cause the object to move in a different direction. Force can change the speed of the object's movement.
Newton's Three Laws of Motion
All moving objects on Earth are governed by Sir Isaac Newton's three laws of motion. These laws are as follows:
1st Law: Objects at rest stay at rest and objects in motion stay in motion unless acted on by a force.

2nd Law: Acceleration of an object depends on its mass and the size and direction of the force acting on it.

3rd Law: Every action has an equal and opposite reaction force.
Earth's Gravity
Gravity is a force that is explained only in terms of its effects rather than its actual cause. For some reason, objects tend to draw toward one another in direct proportion to their size, and they tend to loose affraction in proportion to the square of the dis­tance that separates them.
The greater the two masses involved actually are, the more gravity is exerted. This explains why your gravitational affraction to the earth is greater than your gravitation­al affraction to the wall closest to where you are sitting. You are drawn toward the center of the earth, causing a friction that far overcomes your gravitational affraction for the wall. Thus, you sit in a chair and do not go sliding into the nearest wall.
When a force is exerted on you that resists gravity, that force causes you to have weight. The floor, for instance, exists between you and the center of earth's gravity. If you place a scale between you and the floor, the push you have against the scale is measured as your weight. However, if the floor were to vanish, you would begin to fall freely with respect to gravity, and the scale would read zero. This condition, the condi­tion in which gravity acts freely on an object, is called weightlessness. Weightlessness is the condition in which astronauts exist as their space shuffle continually falls toward the earth (gravity is acting freely).


Science Fair Scientific Method
The Birth of the Scientific Method
Galileo Galilei (1564-1642), an Italian astronomer and physicist, believed in discovering facts by first forming a theory (or hypothesis) and then testing it in an experiment. This approach, which we call the scientific method, was a very radical idea in his time. People were more inclined to accept ideas that were in line with their religious beliefs or that seemed logical. But many scientific discoveries do not always appear to make sense. For instance, many of Galileo's contemporaries did not believe that other planets had satellites (like our moon) because they could not see them with their own eyes. Galileo was willing to explore these questions that others had dismissed. He also believed in careful observation and measurement and devel­oped the telescope into a powerful tool for exploring the sky. With this tool he discovered four of Jupiter's satellites. Galileo's desire to test his theories through experiment and learn through obser­vation and measurement moved science forward.

The Scientific Method
The scientific method is the backbone of a science fair project. The scientific method has four parts:

Observation
You notice something in the world that you want to know more about, so you ask a question. The purpose of your science fair project is to answer this question.

Hypothesis
You predict why, when, where, or how whatever you observed happened, based on information you already have. Sometimes this takes the form of an "if ... then" statement. A hypothesis is often called an "educated guess" because you base your prediction on facts you already know.

Testing
Test your hypothesis with a procedure. You can do either an experiment, where everything except the particular thing being tested is carefully controlled, or fieldwork, where you study your subject in the natural world. Careful observations and measurements are recorded in both testing procedures.

Conclusion
You state whether or not your hypothesis was correct based on the results of your testing. If your hypothesis is proven wrong, try to explain why. Make any fur­ther predictions your results could point to, and describe any changes to your pro­cedure you think would give more accurate results or be helpful to further research. Also include any questions you may have thought of during your testing.

Procedure
Procedure is the name given to the steps you take to test your hypothesis.
The purpose of science is to discover things about the world, with accuracy, truth, and objectivity. Scientists:
·        test ideas.
·        weigh evidence carefully.
·        come to conclusions cautiously.
·        make conclusions based on facts.
An important part of the scientist's process of discovery is the procedure. A procedure is a list of steps. The steps you plan to take to test your hypothesis must be clearly written out so that someone else could repeat what you have done. Your procedure:
·        gives step-by-step directions on what to do.
·        lists all the materials and equipment you use.
·        provides any instructions you need to build or use equipment.

Scientists test their hypotheses either through experiment or fieldwork.
Experiment
Experimental observations are made in a controlled environment that you create. How do you create a controlled environment? You isolate what it is you are investigating in the real world and scale it down so that it is smaller and more sim­plified.
In an experiment, a scientist tries to look at how just one thing affects a sub­ject. The tricky part is creating an environment in which only that one thing changes. That is why you often see scientists using test tubes, petri dishes, and other small, enclosed settings for their experiment. It is easier to control what occurs in such environments.

Fieldwork
In fieldwork, a scientist goes into an uncontrolled environment and records his or her observations. What is complicated about fieldwork is that while you are recording your observations, you must make sure that you yourself are not interfer­ing with your subject simply by being there. For instance, you cannot count birds in a tree if you scare any away while you try to count them.

Field Study Finds New Life Forms
Your field study may occur in your own backyard or even at the local nature preserve, but can you imagine exploring the deep rifts in the ocean's floor in a submarine?
In 1977, scientists aboard the research submarine Alvin, from Woods Hole Oceanographic Institute, discovered a new ecosystem, or community of organisms, thriving near volcanic vents at the bottom of the freezing waters of the Pacific Ocean's Galapagos Rift.
The high heat and hydrogen sulfide from the cracks in the volcanoes provide the energy for special bacteria, a staple of the unique food chain there. Other members of the ecosystem are huge tube worms that measure up to 25 feet long. Because they are so different than anything else known by scientists, they are classified in a phylum, Vestimentifera, by themselves. The scientists named some of the new worms alvinellid worms, after their submarine research vessel.
This strange volcanic ecosystem, based on converting sulphurous chemicals into food, sug­gests to some scientists the possibility that there may be similar strange life-forms on other planets with volcanic activity.

Saturday, May 6, 2017

Three Ways to Prevent Summer Slide
Many children, especially struggling readers, forget some of what they've learned or slip out of practice during the summer months. Try these strategies to help your reader improve her reading during the summer and beyond:
  1. Six books to summer success: Research shows that reading just six books during the summer may keep a struggling reader from regressing. When choosing the six, be sure that they are just right - not too hard and not too easy. Take advantage of your local library. Ask for help selecting books that match your child's age, interests, and abilities.
     
  2. Read something every day: Encourage your child to take advantage of every opportunity to read. Find them throughout the day:
    • Morning: The newspaper - even if it is just the comics or today's weather.
       
    • Daytime: Schedules, TV guides, magazines, online resources, etc. For example, if your daughter likes the food channel, help her look for a recipe on the network's Web site - then cook it together for more reading practice.
       
    • Evening: End the day by having your child read to you from the book he is currently reading (one of the six books, above). Have him rehearse a paragraph, page, or chapter before reading to you. Rereading will help him be more fluent - able to read at an appropriate speed, correctly, and with nice expression.
       
  3. Keep reading aloud: Reading aloud benefits all children and teens, especially those who struggle. One benefit is that you can read books your child can't, so she will build listening comprehension skills with grade-level and above books. This will increase her knowledge and expand her experience with text, so that she will do better when she reads on her own.
It's hard to keep up a reading routine in a season packed with distractions and diversions. These suggestions will fit into a busy schedule and make reading fun!

www.scholastic.com

Friday, April 28, 2017

Strong Student vs. Strong Person 

I found this article very interesting. What are your thoughts?

Here’s a rough breakdown of the differences between being simply a strong student, and how that looks in the life of someone becoming a strong person:
Strong Student
Strong Person
Good at academics
Good at applying academics to life
Concerned about getting good grades
Concerned about developing proficiency in each skill set
Always knows what they're working on
Always knows what they're working toward
Expresses only agreeable opinions
Respectfully expresses what's truly on her heart and mind
Learns things for the test
Learns things to learn things
Focuses on English, science, math, history, etc.
Focuses on responsibility, motivation, kindness, passion, etc.
Is in competition with other classmates for grades, resources, and attention
Is in concord with classmates to share information, resources, and attention
Asks questions to conform to teacher's expectations
Asks questions to expand his learning and curiosity
Believes in her ability to do good schoolwork
Believes in her ability to overcome obstacles
Does the minimum to get the desired grade
Does the maximum to get the desired learning
Is deterred by failure
Is inspired by failure
The list could go on, but you get the idea. The person described in the left hand column would be a joy to have in the classroom, no doubt. But their motivations are superficial and shortsighted. While they would probably turn in work and earn grades similar to the strong person described in the right hand column, there’s a fundamental difference in the way they operate. Teachhub.com