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[DOC File]Article:
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Note that the “F” in this equation is the net force, that is, the vector sum of all the forces acting on the object. [Aurore: put this next bit in a “note” box] Vectors are not part of the 6-8 grade standards, and so they will not be mentioned again on these posters. ... For a fun, interactive …

[DOC File]INTERACTIVE LECTURE DEMONSTRATION
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Interactive Lecture Demonstration Prediction Sheet—Rotational Motion. Directions: ... For the motion of the disk described in Demonstration 5, sketch on the diagram on the right the net force acting on the object at the edge of the turntable when it is at position 1.

[DOC File]Autoregulation and Capillary Dynamics - Interactive Physiology
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Net Force = Net HP - Net OP • The venous net force in the capillaries equals 14 mm Hg minus 22 mm Hg which gives us -8 mm Hg. Since the net osmotic pressure is greater than the net hydrostatic pressure at the venule end, the osmotic pressure wins out and the …

[DOC File]INTERACTIVE LECTURE DEMONSTRATION
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Describe the direction of the net force acting on the cart (is it zero, up the incline, down the incline?) and magnitude of the net force acting on the cart (is it constant, increasing, decreasing?) as the cart does the following things: The cart moves up the inclined plane, slowing down as it …

Quia
Electric Force and Field Interactive Lab Proceed in the following order: ... What is the net force on the middle charge? ... The force between two particles always lies on the line between the two particles, is attractive or repulsive depending on the signs of the charges, and varies as 1 over the square of the separation distance (1/r2) (from ...

[DOC File]STUDENT WORKSHEET: Force and Acceleration
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STUDENT WORKSHEET: Force and Acceleration Exercises. Using . F = m × a. Your bicycle has a mass of 9.1 kilograms. You accelerate at a rate of 1.79 m/s2. Calculate the net force that is accelerating the bicycle. The Space Shuttle has a liftoff mass of 2,041,000 kg and accelerates at a rate of 16 m/s2.

[DOCX File]Science Friday
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Go to PhET Force and Motion Basics and click “Net Force” to test your predictions using a series of trials. Try new combinations! Compare the predictions that you made in the table above to what happens to the cart of candy in each trial. If some of your predictions are not right, use a …

[DOCX File]Gravity Force Simulation Activity.docx
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The larger the Star is the more gravitational force it will exert, pulling planets towards it, the planets will orbit more quickly and be pulled more strongly giving a more elliptical orbit. When the planet is larger it will orbit the star more slowly. The closer a planet is to its star the more quickly it …

[DOCX File]Chapter 11 & 12 Study Guide: Motion & Forces
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Newton’s First law of Motion: Also known as “Law of Inertia”. Object in motion stays in motion and an object at rest stays at rest UNLESS acted upon by a NET FORCE. Newton’s Second law of Motion: F = m x a. Force equals the product of an object’s mass and acceleration. (Acceleration is equal to the force and inversely proportional to ...

[DOC File]INTERACTIVE LECTURE DEMONSTRATIONS
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Interactive Lecture Demonstrations. Prediction Sheet--Newton's 1st & 2nd Laws. Directions: ... On the axes on the right sketch your predictions of the velocity and acceleration of the cart and the applied and net force on the cart after it is released and during the time the cart is moving under the influence of the constant force. (Applied and ...

Net force interactive