phys: add third law of motion
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@ -125,7 +125,7 @@ Please see [SL Physics#Uncertainty of gradient and intercepts](/sph3u7/#uncertai
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## 11.3 - Spectroscopic identification of organic compounds
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## 12 - Atomic structure
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## 2 - Atomic structure
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!!! definition
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- The **effective nuclear charge** ($Z_\text{eff}$) is the net positive charge (attraction to the nucleus) experienced by an electron in an atom.
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@ -247,6 +247,12 @@ A chemical bond consists of the strong electronic interactions of the **valence*
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- Electrons to be transferred must have arrows pointing to their destination.
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- x'es are used to represent additional electrons that have an unknown source.
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### Nomenclature
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### Types of reactions
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### Total and net ionic equations
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### Percentage ionic character
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Bonding is a spectrum. The percentage ionic character of a chemical bond shows roughly the amount of time valence electrons spend near an atom or ion in a bond. The difference between two elements' electronegativity (ΔEN) indicates how covalent and how ionic the bond **behaves**.
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@ -394,9 +394,22 @@ If an object as a **zero net force** in all dimensions, the forces acting on it
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### Newton's laws of motion
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Newton's first law of motion (also known as the **law of inertia**) states that every object will remain at rest or at constant velocity unless acted upon by an unbalanced force.
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Newton's first law, also known as the **law of inertia**) states that every object will remain at rest or at constant velocity unless acted upon by an unbalanced force.
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Newton's second law of motion states that the **net** force on an object is equal to its mass multiplied by its acceleration, such that $\Sigma \vec{F} = m\vec{a}$.
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Newton's second law states that the **net** force on an object is equal to its mass multiplied by its acceleration, such that $\Sigma \vec{F} = m\vec{a}$.
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Newton's third law states that every force applied on an object as an equal and opposite reaction force on another object. These pairs of forces are known as **action/reaction pairs**. Forces are *only* part of the same pair when they:
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- have the same magnitude but opposite directions
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- are of the same type (e.g., both are weight or normal force)
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- start and stop at the same time
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- act on **two different objects**, thus requiring **two** force diagrams to show both of them
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!!! example
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If a block is lying on the ground, the force from the weight of the Earth on the block is the same as the force of the block on the Earth.
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!!! warning
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The weight of an object and the normal force resisting that weight is *not* an action/reaction pair as they appear on the *same* force diagram and act on the *same* object.
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## 2.3 - Work, energy, and power
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