
vectors Tag Posts Index
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Vector Equation Of A Line
Hi there. In this math post, I cover the vector equation of a line. Math images/text mostly from QuickLaTeX.com. Image Source Vector Equation Of Line Before giving
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MES Math Q/A 64: What are Electromagnetic Potentials?
YouTube - Rumble - Odysee - BitChute - X - Twitch - Math Q/A playlist Electromagnetic potentials are mathematical fields introduced via vector calculus identities
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Geosynchronous Satellite + Arthur C. Clarke's connections with 9/11, Ball Lightning, & Cold Fusion
In this video, I use the equation for Kepler's third law to calculate the required altitude above Earth's equator of a satellite to have the same period as Earth's
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Geosynchronous Satellite + Arthur C. Clarke's connections with 9/11, Ball Lightning, & Cold Fusion
3Speak - YouTube - Telegram - Notes - Playlist - Vector Functions - MES Links In this video, I use the equation for Kepler's third law to calculate the required
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Length of Earth's Orbit around the Sun is 299 million km wide
In this video, I use Kepler's third law to calculate the length of Earth's elliptical orbit to be around 299,000,000 km wide and takes about 365.25 days to complete
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Kepler's Third Law: Square of Planet's Orbital Period is Proportional to the Cube of its Major Axis
In this video, I derive Kepler's 3rd Law of planetary motion and obtain a formula for a planet's period of orbit around the Sun in terms of the length of its major
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Kepler's Third Law: Square of Planet's Orbital Period is Proportional to the Cube of its Major Axis
3Speak - YouTube - Telegram - Summary - Notes - Sections playlist - Vector Functions playlist - MES Links In this video, I derive Kepler's 3rd Law of planetary motion
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Kepler's Second Law: A Planet's Orbit Sweeps out Equal Areas in Equal Times
In this video, I derive Kepler's 2nd law of planetary motion and show that the line joining the Sun to a planet sweeps out equal areas in equal times. In other words,
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Kepler's Second Law: A Planet's Orbit Sweeps out Equal Areas in Equal Times
3Speak - YouTube - Telegram - Summary - Notes - Sections playlist - Vector Functions playlist - MES Links In this video, I derive Kepler's 2nd law of planetary motion
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Kepler's First Law: Planets Revolve around the Sun in an Ellipse
In this video, I derive Kepler's 1st law of planetary motion entirely from Newton's second law of motion and Newton's law of universal gravitation, while making
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Kepler’s Laws of Planetary Motion
In this video, I go over Johannes Kepler's three laws of planetary motion and derive them using Isaac Newton's second law of motion, F = m a, and his law on universal
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Kepler’s Laws of Planetary Motion
In this video, I go over Johannes Kepler's three laws of planetary motion and derive them using Isaac Newton's second law of motion, F = m a, and his law on universal
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Tangential and Normal Components of Acceleration as Derivatives of Position Vector + Example
In this video, I rewrite our earlier equations for the tangential and normal components of acceleration to be in terms of the position vector and its derivatives.
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Tangential and Normal Components of Acceleration as Derivatives of Position Vector + Example
In this video, I rewrite our earlier equations for the tangential and normal components of acceleration to be in terms of the position vector and its derivatives.
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Tangential and Normal Components of Acceleration
In this video, I write the vector equation of acceleration in terms of its unit tangent and unit normal vector components, which is useful when analyzing the motion
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Example 6: Impact Speed of a Projectile Hitting the Ground
In this video, I determine the time a projectile is in the air, the distance it travels, and the speed it impacts the ground after being launched from 10 meters
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Example 6: Impact Speed of a Projectile Hitting the Ground
In this video, I determine the time a projectile is in the air, the distance it travels, and the speed it impacts the ground after being launched from 10 meters
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Example 5: Horizontal Distance Traveled by a Projectile
In this video, I determine the vector formula for path of a projectile launched at an angle by integrating the acceleration due to gravity acting on it, and then
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Example 5: Horizontal Distance Traveled by a Projectile
In this video, I determine the vector formula for path of a projectile launched at an angle by integrating the acceleration due to gravity acting on it, and then
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Example 4: Newton's Second Law of Motion and Centripetal Force
In this video, I go over the vector version of Isaac Newton's 2nd Law of Motion, which states that if a force F acts on a particle of mass m producing an acceleration
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