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- https://phys.libretexts.org/Courses/Prince_Georges_Community_College/PHY_1030%3A_General_Physics_I/10%3A_Fluids/10.6%3A_Deformation_of_SolidsLength is one of the basic dimensions used to measure an object.
- https://phys.libretexts.org/Courses/Joliet_Junior_College/JJC_-_PHYS_110/05%3A_Book-_Physics_(Boundless)/5.06%3A_Fluids/5.6.06%3A_Deformation_of_SolidsLength is one of the basic dimensions used to measure an object.
- https://phys.libretexts.org/Bookshelves/University_Physics/Physics_(Boundless)/10%3A_Fluids/10.6%3A_Deformation_of_SolidsLength is one of the basic dimensions used to measure an object.
- https://phys.libretexts.org/Bookshelves/University_Physics/Physics_(Boundless)/17%3A_Electric_Charge_and_Field/17.4%3A_The_Electric_Field_RevisitedA point charge creates an electric field that can be calculated using Coulomb’s law.
- https://phys.libretexts.org/Bookshelves/Electricity_and_Magnetism/Electromagnetics_I_(Ellingson)/05%3A_Electrostatics/5.01%3A_Coulombs_LawConsider two charge-bearing particles in free space. Let the charges borne by these particles be q1 and q2 , and let R be the distance between them. If the particles bear charges of the same sign...Consider two charge-bearing particles in free space. Let the charges borne by these particles be q1 and q2 , and let R be the distance between them. If the particles bear charges of the same sign, then the particles repel; otherwise, they attract. This repulsion or attraction can be quantified as a force experienced by each particle. Physical observations reveal that the magnitude of the force is proportional to the product of charges, and inversely proportional to R2 . For particle 2 we f
- https://phys.libretexts.org/Bookshelves/Classical_Mechanics/Classical_Mechanics_(Dourmashkin)/08%3A_Applications_of_Newtons_Second_Law/8.02%3A_Fundamental_Laws_of_NatureForce laws are mathematical models of physical processes. They arise from observation and experimentation, and they have limited ranges of applicability. Does the linear force law for the spring hold ...Force laws are mathematical models of physical processes. They arise from observation and experimentation, and they have limited ranges of applicability. Does the linear force law for the spring hold for all springs? Each spring will most likely have a different range of linear behavior. So the model for stretching springs still lacks a universal character.
- https://phys.libretexts.org/Courses/Berea_College/Electromagnetics_I/05%3A_Electrostatics/5.01%3A_Coulombs_LawConsider two charge-bearing particles in free space. Let the charges borne by these particles be q1 and q2 , and let R be the distance between them. If the particles bear charges of the same sign...Consider two charge-bearing particles in free space. Let the charges borne by these particles be q1 and q2 , and let R be the distance between them. If the particles bear charges of the same sign, then the particles repel; otherwise, they attract. This repulsion or attraction can be quantified as a force experienced by each particle. Physical observations reveal that the magnitude of the force is proportional to the product of charges, and inversely proportional to R2 . For particle 2 we f
- https://phys.libretexts.org/Courses/Georgia_State_University/GSU-TM-Introductory_Physics_II_(1112)/03%3A_Electric_Charge_and_Electric_Field/3.04%3A_Coulomb's_LawIn this expression, Q represents the charge of the particle that is experiencing the electric force \(\vec{F}\), and is located at \(\vec{r}\) from the origin; the \(q_i's\) are the N source charges, ...In this expression, Q represents the charge of the particle that is experiencing the electric force \(\vec{F}\), and is located at \(\vec{r}\) from the origin; the \(q_i's\) are the N source charges, and the vectors \(\vec{r}_i \) are the displacements from the position of the ith charge to the position of \(Q\).
- https://phys.libretexts.org/Courses/Skyline/Survey_of_Physics/07%3A_Electricity/7.04%3A_Coulomb's_LawThrough the work of scientists in the late 18th century, the main features of the electrostatic force—the existence of two types of charge, the observation that like charges repel, unlike charges attr...Through the work of scientists in the late 18th century, the main features of the electrostatic force—the existence of two types of charge, the observation that like charges repel, unlike charges attract, and the decrease of force with distance—were eventually refined, and expressed as a mathematical formula. The mathematical formula for the electrostatic force is called Coulomb’s law after the French physicist Charles Coulomb.
- https://phys.libretexts.org/Bookshelves/Electricity_and_Magnetism/Essential_Graduate_Physics_-_Classical_Electrodynamics_(Likharev)/01%3A_Electric_Charge_Interaction/1.01%3A_The_Coulomb_Law\mathbf{F}_{k k^{\prime}}=\kappa q_{k} q_{k^{\prime}} \frac{\mathbf{r}_{k}-\mathbf{r}_{k^{\prime}}}{\left|\mathbf{r}_{k}-\mathbf{r}_{k^{\prime}}\right|^{3}} \equiv \kappa \frac{q_{k} q_{k^{\prime}}}{R...\mathbf{F}_{k k^{\prime}}=\kappa q_{k} q_{k^{\prime}} \frac{\mathbf{r}_{k}-\mathbf{r}_{k^{\prime}}}{\left|\mathbf{r}_{k}-\mathbf{r}_{k^{\prime}}\right|^{3}} \equiv \kappa \frac{q_{k} q_{k^{\prime}}}{R_{k k^{\prime}}^{2}} \mathbf{n}_{k k^{\prime}}, \\
- https://phys.libretexts.org/Bookshelves/College_Physics/College_Physics_1e_(OpenStax)/18%3A_Electric_Charge_and_Electric_Field/18.03%3A_Coulomb's_LawThrough the work of scientists in the late 18th century, the main features of the electrostatic force—the existence of two types of charge, the observation that like charges repel, unlike charges attr...Through the work of scientists in the late 18th century, the main features of the electrostatic force—the existence of two types of charge, the observation that like charges repel, unlike charges attract, and the decrease of force with distance—were eventually refined, and expressed as a mathematical formula. The mathematical formula for the electrostatic force is called Coulomb’s law after the French physicist Charles Coulomb.
