Newton in a sentence

(1) The mathematician was surnamed Newton.

(2) The metric unit of force is the newton.

(3) One erg is equal to 10^-10 newton-meters.

(4) Isaac Newton was born in England in 1642.

(5) Isaac Newton pioneered the laws of motion.

(6) Isaac Newton popularized the laws of motion.

(7) A unit of force is a newton or a pound-force.

(8) Isaac Newton formulated the laws of gravitation.

(9) The standard of measurement for force is newton.

(10) Isaac Newton was knighted by Queen Anne in 1705.

Newton sentence

(11) The forefather of modern physics is Isaac Newton.

(12) Newton was a renowned physicist and mathematician.

(13) Newton's laws are based on the concept of inertia.

(14) Isaac Newton's work on calculus was groundbreaking.

(15) The laws of motion were discovered by Isaac Newton.

(16) The mass unit for measuring torque is newton-meters.

(17) The newton is the physical unit for measuring force.

(18) The standard of measurement for force is the newton.

(19) The concept of fluxion was introduced by Isaac Newton.

(20) The torque of the engine was measured in Newton-meters.

Newton make sentence

(21) Isaac Newton is known as the co-discoverer of calculus.

(22) The discovery of gravity antedates Isaac Newton's laws.

(23) Newton's laws are the foundation of classical mechanics.

(24) The falling apple made a thump in front of Isaac Newton.

(25) The force gauge is certified down to the nearest newton.

(26) Isaac Newton was a brilliant physicist and mathematician.

(27) Isaac Newton is regarded as the codiscoverer of calculus.

(28) Isaac Newton and Gottfried Leibniz codiscovered calculus.

(29) Isaac Newton was a brilliant mathematician and physicist.

(30) Isaac Newton was also interested in alchemy and theology.

Sentence of newton

(31) Isaac Newton's laws of motion are still widely used today.

(32) Newton's laws can be used to analyze the motion of fluids.

(33) The kinematic equations can be derived from Newton's laws.

(34) The binomial theorem was first discovered by Isaac Newton.

(35) The theory of gravity originated towards Sir Isaac Newton.

(36) Newton's law of motion is a cornerstone of modern physics.

(37) The binomial-theorem was first introduced by Isaac Newton.

(38) Newton's third law is a cornerstone of classical mechanics.

(39) Isaac Newton's work laid the foundation for modern physics.

(40) The concept of gravity originated towards Sir Isaac Newton.

Newton meaningful sentence

(41) The annus mirabilis was a year of wonders for Isaac Newton.

(42) Sir Isaac Newton was a renowned physicist and mathematician.

(43) The concept of force pairs is central to Newton's third law.

(44) Newton's third law is one of the fundamental laws of motion.

(45) Newton's laws of motion revolutionized the field of physics.

(46) The most accomplished scientist of all time is Isaac Newton.

(47) The geocentrism theory was challenged by the work of Newton.

(48) The concept of gravity has roots in Isaac Newton's theories.

(49) The renowned mathematician goes by the name of Isaac Newton.

(50) Newton's second law is a cornerstone of classical mechanics.

Newton sentence examples

(51) The works of Isaac Newton revolutionized natural philosophy.

(52) Isaac Newton is recognized as the co-discoverer of calculus.

(53) The fundamental unit of measurement for force is the newton.

(54) Newton's laws can be used to explain the motion of pendulums.

(55) The theory of gravity was first proposed by Sir Isaac Newton.

(56) Inertial mass plays a crucial role in Newton's laws of motion.

(57) Newtonian mechanics is based on Isaac Newton's laws of motion.

(58) Understanding Newton's law is crucial in the study of physics.

(59) The phenomenon of lensing was first described by Isaac Newton.

(60) Fluxions are a mathematical concept developed by Isaac Newton.

Sentence with newton

(61) Newton's law of motion is a cornerstone of classical mechanics.

(62) Newton's third law is a key principle in the study of dynamics.

(63) Newton's third law is a result of the conservation of momentum.

(64) Isaac Newton's genius is evident in his extensive body of work.

(65) Newton's law of motion is why a pendulum swings back and forth.

(66) The Principia Mathematica is one of Newton's most famous works.

(67) The concept of gravity was first described by Sir Isaac Newton.

(68) The almagest was a major influence on the work of Isaac Newton.

(69) Sir Isaac Newton's work laid the foundation for modern calculus.

(70) The law of gravitation was first formulated by Sir Isaac Newton.

Use newton in a sentence

(71) Isaac Newton's contributions to mathematics are highly regarded.

(72) Newton's laws of motion are still widely used in modern physics.

(73) Newton's laws apply to both macroscopic and microscopic objects.

(74) Newton's laws are fundamental principles in classical mechanics.

(75) Newton's laws are taught in physics classrooms around the world.

(76) The concept of gravity antedates the discovery of Newton's laws.

(77) The principles of rocketry are based on Newton's laws of motion.

(78) The concept of tidal gravity was first proposed by Isaac Newton.

(79) Sir Isaac Newton's legacy as a scientist is celebrated worldwide.

(80) Many experiments have been conducted to prove Newton's third law.

Sentence using newton

(81) Newton's third law helps explain the mechanics behind collisions.

(82) The concept of gravity originated within Isaac Newton's theories.

(83) The concept of gravitations was first introduced by Isaac Newton.

(84) Isaac Newton's work on fluxions laid the foundation for calculus.

(85) The unit of pressure for a pascal is one newton per square meter.

(86) Isaac Newton made significant contributions to natural philosophy.

(87) Newton's law of motion explains the behavior of objects in motion.

(88) Newton's laws are applicable to both linear and rotational motion.

(89) The concept of gravity originated from Isaac Newton's discoveries.

(90) The concept of inertia is central to Newton's first law of motion.

Newton example sentence

(91) Newton's law of motion is a key concept in the study of mechanics.

(92) Newton's laws of motion are fundamental to the field of mechanics.

(93) The concept of gravity originates in Isaac Newton's laws of motion.

(94) Newton's laws of motion are taught in introductory physics courses.

(95) The conversion factor allows us to convert watt into newton-meters.

(96) The corpuscular nature of light was first proposed by Isaac Newton.

(97) Isaac Newton's work on gravity revolutionized the field of physics.

(98) Sir Isaac Newton's theories on light and optics were groundbreaking.

(99) Sir Isaac Newton's contributions to science earned him a knighthood.

(100) Sir Isaac Newton's work on optics revolutionized the study of light.

Sentence with word newton

(101) The concept of tidal gravity was first proposed by Sir Isaac Newton.

(102) Kepler's work laid the foundation for Isaac Newton's laws of motion.

(103) The apple falling from the tree inspired Newton's theory of gravity.

(104) Newton's laws can be used to predict the trajectory of a projectile.

(105) The Gauss-Newton method is used for nonlinear optimization problems.

(106) The behavior of a rigid-body is governed by Newton's laws of motion.

(107) Newton's second law is often referred to as the law of acceleration.

(108) Newton's law of motion laid the foundation for the study of dynamics.

(109) Newton's work on celestial mechanics explained the motion of planets.

(110) Newton's laws provide a mathematical description of how objects move.

Sentence of newton

(111) Newton's laws are based on the principle of conservation of momentum.

(112) The concept of gravity originates from Isaac Newton's laws of motion.

(113) The concept of gravity originates with Isaac Newton's laws of motion.

(114) The concept of orbital velocity was first introduced by Isaac Newton.

(115) Isaac Newton developed the theory of gravitation in the 17th century.

(116) The concept of luminiferous ether was first proposed by Isaac Newton.

(117) The equilibrant force is an integral part of Newton's laws of motion.

(118) Newton's law of motion is a fundamental concept in physics education.

(119) The motion of planets can be explained using Newton's laws of motion.

(120) Sir Isaac Newton's mathematical prowess was unmatched during his time.

Newton used in a sentence

(121) Isaac Newton's theories on planetary motion were a major breakthrough.

(122) Applying Newton's law can help predict the trajectory of a projectile.

(123) Newton's contemporaries were astounded by his groundbreaking theories.

(124) Newton's laws are still used today to calculate the motion of objects.

(125) Newton's laws are consistent with our everyday observations of motion.

(126) Newton's laws can be used to calculate the forces acting on an object.

(127) Sir Isaac Newton's laws of motion revolutionized the field of physics.

(128) Sir Isaac Newton's laws of motion are based on the concept of inertia.

(129) Isaac Newton is renowned for his laws of motion and theory of gravity.

(130) The principles of rocket science are based on Newton's laws of motion.

Newton sentence in English

(131) One of the fundamental principles of physics is Newton's law of motion.

(132) Newton's third law is applicable to both stationary and moving objects.

(133) The scientific community greatly respects Isaac Newton's contributions.

(134) Rockets are propelled by the principle of Newton's third law of motion.

(135) Newton's law of universal gravitation explains why objects have weight.

(136) Newton's three laws describe the relationship between force and motion.

(137) Newton's laws provide a framework for understanding the physical world.

(138) Newton's discovery of fluxions revolutionized the field of mathematics.

(139) The concept of gravity is derivable from Isaac Newton's laws of motion.

(140) The setpoint for the torque control system was set to 50 Newton-meters.

(141) The concept of gravity be of origin from Isaac Newton's laws of motion.

(142) The concept of gravity originates around Isaac Newton's laws of motion.

(143) The principle of inertia is a fundamental aspect of Newton's first law.

(144) Newton's second law is applicable to both linear and rotational motion.

(145) Isaac Newton was a pivotal figure in the development of modern physics.

(146) Isaac Newton's experiments with prisms demonstrated the nature of light.

(147) Newton's law of action and reaction is why a rocket launches into space.

(148) Newton's laws of motion are fundamental principles in classical physics.

(149) The scientific theory of gravity was first proposed by Sir Isaac Newton.

(150) The concept of orbital motion was further developed by Sir Isaac Newton.

(151) The principles of gravimetry were first established by Sir Isaac Newton.

(152) The concept of gravity is said to originate along Isaac Newton's theory.

(153) Sir Isaac Newton's contributions to calculus revolutionized mathematics.

(154) Newton's law of inertia is often referred to as the first law of motion.

(155) The scientist Isaac Newton was very influential in the field of physics.

(156) Examples of that is the discovery of the laws of motion by Isaac Newton.

(157) Newton's law of motion helps explain why objects move in the way they do.

(158) Galileo Galilei's writings on the laws of motion influenced Isaac Newton.

(159) The discoveries made by Isaac Newton revolutionized the field of physics.

(160) The laws of motion formulated by Isaac Newton are fundamental to physics.

(161) Newton's law states that every action has an equal and opposite reaction.

(162) Newton's laws have been tested and verified through numerous experiments.

(163) Newton's development of fluxions laid the foundation for modern calculus.

(164) The precessional motion of the Earth was first explained by Isaac Newton.

(165) Jet propulsion is based on the principle of Newton's third law of motion.

(166) Newton's law of gravity revolutionized our understanding of the universe.

(167) Democritus' philosophy influenced later thinkers, including Isaac Newton.

(168) Newton's law of motion is a fundamental concept in the study of dynamics.

(169) The principles of rocket propulsion were first theorized by Isaac Newton.

(170) The famous scientist who discovered gravity is known as Sir Isaac Newton.

(171) The Melkite Greek Catholic eparchy of Newton is located in Massachusetts.

(172) Newton's laws of motion are a fundamental concept in classical mechanics.

(173) Galileo Galilei's work was a major influence on the work of Isaac Newton.

(174) Sir Isaac Newton's genius is evident in his many scientific breakthroughs.

(175) Newton's second law states that force is equal to mass times acceleration.

(176) Newton's laws can be used to analyze the motion of planets and satellites.

(177) The concept of a gravitational field was first introduced by Isaac Newton.

(178) Catchings the falling apple reminded him of Newton's discovery of gravity.

(179) Newton's law of motion is applicable to both linear and rotational motion.

(180) Newton's law of motion is often used to analyze the motion of projectiles.

(181) Newton's law of motion is used to calculate the trajectory of projectiles.

(182) Huey Percy Newton was an American political activist and Marxist-Leninist.

(183) Sir Isaac Newton's research on gravity paved the way for space exploration.

(184) Newton's third law can be mathematically represented using vector notation.

(185) Newton's discoveries in optics led to the understanding of color and light.

(186) The idea of gravity is believed to originate among Isaac Newton's theories.

(187) The concept of gravity came into existence with Isaac Newton's discoveries.

(188) Newton's theory of gravitation laid the foundation for classical mechanics.

(189) The principles of celestial mechanics were first developed by Isaac Newton.

(190) The concept of fluxions was introduced by Isaac Newton in the 17th century.

(191) The principles of classical mechanics were first developed by Isaac Newton.

(192) Newton's law of motion is a fundamental principle in the field of mechanics.

(193) The concept of gravitational attraction was first described by Isaac Newton.

(194) Newton's third law applies to both macroscopic and microscopic interactions.

(195) Rocket propulsion is based on the principle of Newton's third law of motion.

(196) Many consider Isaac Newton to be one of the greatest scientists of all time.

(197) Newton's law of motion is why a tennis ball bounces when it hits the ground.

(198) Newton's law of universal gravitation is why planets revolve around the sun.

(199) Newton's law of motion revolutionized our understanding of how objects move.

(200) The Gauss-Newton algorithm is used for nonlinear least squares optimization.

(201) The first law of Newton's law of motion is also known as the law of inertia.

(202) Newton's laws of motion are applicable to both linear and rotational motion.

(203) Cabot's Ice Cream & Restaurant is a popular eatery in Newton, Massachusetts.

(204) The discovery of Kepler's laws paved the way for Newton's theory of gravity.

(205) The discovery of the laws of gravity by Isaac Newton revolutionized physics.

(206) The concept of gravity originated in terms of Isaac Newton's laws of motion.

(207) Isaac Newton's theories on gravity changed our understanding of the universe.

(208) Newton's second law can be expressed as a second-order differential equation.

(209) The concept of the dyne was introduced by Isaac Newton in his laws of motion.

(210) Johannes Kepler's work laid the foundation for Isaac Newton's laws of motion.

(211) The law of action and reaction is also known as Newton's third law of motion.

(212) The famous scientist Isaac Newton is named after his father, Isaac Newton Sr.

(213) The discovery of gravity antecede the formulation of Newton's laws of motion.

(214) Newton's law of motion is based on the principle of conservation of momentum.

(215) Newton's laws of motion are considered the foundation of classical mechanics.

(216) The speech's reference was an allusion to the famous scientist, Isaac Newton.

(217) The bicentenary of the birth of Isaac Newton was marked by a special lecture.

(218) Sir Isaac Newton's laws of motion revolutionized our understanding of physics.

(219) Newton's law of motion explains how objects move and interact with each other.

(220) Isaac Newton's scientific achievements continue to inspire future generations.

(221) Isaac Newton's experiments with light and prisms led to important discoveries.

(222) Isaac Newton's contributions to the scientific community cannot be overstated.

(223) Newton's law of universal gravitation describes the force between two objects.

(224) Newton's contributions to calculus laid the foundation for modern mathematics.

(225) Newton's law of universal gravitation explains the attraction between objects.

(226) The Cabot House in Newton, Massachusetts, is a historic mansion turned museum.

(227) The conservation of momentum is a consequence of Newton's third law of motion.

(228) Newton's second law is applicable to both macroscopic and microscopic systems.

(229) Sir Isaac Newton's groundbreaking work laid the foundation for modern physics.

(230) Sir Isaac Newton's theory of gravity explained the motion of celestial bodies.

(231) The reflecting telescope was invented by Sir Isaac Newton in the 17th century.

(232) The concept of fluxion was introduced by Sir Isaac Newton in the 17th century.

(233) Isaac Newton's laws of motion are still used today in engineering and physics.

(234) Huey Percy Newton co-founded the Black Panther Party for Self-Defense in 1966.

(235) The contributions of Sir Isaac Newton to the field of science are immeasurable.

(236) The scientific community greatly respects the achievements of Sir Isaac Newton.

(237) Sir Isaac Newton's laws of motion are still taught in physics classrooms today.

(238) Sir Isaac Newton's discoveries challenged long-held beliefs about the universe.

(239) The apple falling from the tree is a famous story associated with Isaac Newton.

(240) Isaac Newton's research on optics greatly advanced our knowledge in that field.

(241) The laws of motion developed by Isaac Newton are still taught in schools today.

(242) The precessions of the planets were predicted by Isaac Newton's laws of motion.

(243) Newton's law of motion is a fundamental building block in the study of physics.

(244) Newton's laws of motion revolutionized our understanding of the physical world.

(245) Newton's laws of motion are still widely used in engineering and physics today.

(246) The groundbreaking work of Isaac Newton laid the foundation for modern physics.

(247) The Theory of Gravity is known as a scientific theory proposed by Isaac Newton.

(248) The coeval discoveries of Newton and Leibniz led to the development of calculus.

(249) Newton's laws are essential for understanding the behavior of objects in motion.

(250) Newton's second law is often summarized as force equals mass times acceleration.

(251) Sir Isaac Newton's laws of motion are used to analyze the motion of projectiles.

(252) Newton's theory of gravitation was a major breakthrough in the field of physics.

(253) The force diagram helped us explain the concept of Newton's third law of motion.

(254) Newton's law of motion is crucial in designing efficient transportation systems.

(255) Newton's law of motion is used to analyze the forces acting on a moving vehicle.

(256) The poundal is named after the English physicist and mathematician Isaac Newton.

(257) Sir Isaac Newton's scientific achievements have had a profound impact on society.

(258) Newton's law of motion is applicable to both macroscopic and microscopic objects.

(259) Newton's third law explains why rockets are able to propel themselves into space.

(260) Isaac Newton's theories on color and light laid the groundwork for modern optics.

(261) Newton's law of acceleration is why a car slows down when the brakes are applied.

(262) The study of differential equations dates back to the time of Newton and Leibniz.

(263) The concept of infinitesimals was first introduced by mathematician Isaac Newton.

(264) The concept of gravitational attraction was first introduced by Sir Isaac Newton.

(265) The first law of motion is a direct consequence of Newton's second law of motion.

(266) Newton's second law of motion is often used to analyze the motion of projectiles.

(267) The law of conservation of momentum is derived from Newton's third law of motion.

(268) Newton's law of motion is applicable to both macroscopic and microscopic systems.

(269) Newton's law of motion is essential in designing safety features for automobiles.

(270) Sir Isaac Newton's experiments with prisms led to a better understanding of light.

(271) Newton's third law of motion is a cornerstone principle in the study of mechanics.

(272) Newton's third law is a fundamental principle in the field of classical mechanics.

(273) Isaac Newton's mathematical principles are widely used in engineering and physics.

(274) Newton's law of acceleration is why a car speeds up when the gas pedal is pressed.

(275) The word newtonian refers to anything related to Sir Isaac Newton or his theories.

(276) Sir Isaac Newton's laws of motion explain how forces affect the motion of objects.

(277) Newton's law of motion is the basis for understanding the mechanics of fluid flow.

(278) European science includes famous scientists like Isaac Newton and Albert Einstein.

(279) Sir Isaac Newton's Principia Mathematica is a seminal work in the field of physics.

(280) The concept of Newton's third law of motion is fundamental in the field of physics.

(281) Newton's third law of motion is based on the principle of conservation of momentum.

(282) Newton's third law is a principle that holds true in all inertial reference frames.

(283) Newton's third law is often demonstrated using simple experiments involving forces.

(284) Newton's third law is a key component in understanding the mechanics of fluid flow.

(285) Newton's law of gravitations explains the attraction between two objects with mass.

(286) Newton's second law is fundamental in explaining the behavior of objects in motion.

(287) Newton's second law is a fundamental concept that underlies the study of mechanics.

(288) Polynomial equations can be solved using iterative methods such as Newton's method.

(289) Newton's laws of motion are applicable to both macroscopic and microscopic systems.

(290) Newton's law of motion is used to analyze the forces acting on a swinging pendulum.

(291) Sir Isaac Newton's discoveries continue to inspire future generations of scientists.

(292) Newton's third law of motion is often referred to as the law of action and reaction.

(293) The concept of Newton's third law of motion is often used in engineering and design.

(294) Newton's third law of motion can be observed in the movement of birds during flight.

(295) Newton's law of gravitation revolutionized our understanding of celestial mechanics.

(296) The laws of gravity proposed by Isaac Newton explain the motion of celestial bodies.

(297) Isaac Newton's discoveries continue to shape our understanding of the natural world.

(298) Newton's law of action and reaction explains why objects push or pull on each other.

(299) Newton's law of universal gravitation explains why the moon orbits around the Earth.

(300) The quadratic equation can be solved through iterative methods like Newton's method.

(301) The concept of gravity is said to originate along Sir Isaac Newton's laws of motion.

(302) Newton's law of motion is applicable to objects of all sizes, from atoms to planets.

(303) Newton's third law explains why a person's hand hurts when they slap a hard surface.

(304) The law of gravitation was first formulated by Sir Isaac Newton in the 17th century.

(305) Sir Isaac Newton's work on optics laid the groundwork for the field of spectroscopy.

(306) Newton's law of action and reaction explains why we feel a recoil when firing a gun.

(307) The physics experiment was an experimental demonstration of Newton's laws of motion.

(308) Newton's law of motion is fundamental to understanding the mechanics of the universe.

(309) Newton's law of motion can be used to calculate the force required to move an object.

(310) The quadratic equation can be solved using numerical methods such as Newton's method.

(311) The concept of gravitations was first introduced by Isaac Newton in the 17th century.

(312) Newton's law of motion is based on the principle that forces cause changes in motion.

(313) It is theorized that the concept of gravity was first discovered by Sir Isaac Newton.

(314) Newton's law of motion is fundamental in explaining the behavior of celestial bodies.

(315) Newton's law of motion is essential in analyzing the forces acting on a spinning top.

(316) The scientific method employed by Sir Isaac Newton is still used by researchers today.

(317) The concept of Newton's third law of motion is taught in introductory physics courses.

(318) It is common knowledge that the concept of gravity was discovered by Sir Isaac Newton.

(319) Newton's law of motion is a fundamental principle in the study of classical mechanics.

(320) Newton's second law is essential in understanding the principles of rocket propulsion.

(321) Isaac Newton's theory of gravitation revolutionized our understanding of the universe.

(322) Newton's law of motion is used to study the behavior of particles in a magnetic field.

(323) Newton's laws provide a framework for understanding the behavior of objects in motion.

(324) Many people consider Sir Isaac Newton to be one of the greatest scientists of all time.

(325) The concept of Newton's third law of motion is often used in the field of biomechanics.

(326) Understanding Newton's third law is crucial in comprehending the principles of physics.

(327) Newton's third law is a principle that helps explain the behavior of objects in motion.

(328) Isaac Newton's scientific method revolutionized the way we approach scientific inquiry.

(329) Isaac Newton's theories on planetary motion provided a new perspective on the universe.

(330) Newton's law of universal gravitation helps explain why objects fall towards the Earth.

(331) Newton's law of motion is why a skateboarder moves forward when pushing off the ground.

(332) Sir Isaac Newton's laws of motion are fundamental principles in the study of mechanics.

(333) The theory of gravity came into existence through the observations of Sir Isaac Newton.

(334) Newton's third law of motion is applicable to both macroscopic and microscopic systems.

(335) The concept of inertiae was first introduced by Sir Isaac Newton in his laws of motion.

(336) The astrophysical theories developed by Newton laid the foundation for modern astronomy.

(337) Newton's law of acceleration is why a roller coaster gains speed as it goes down a hill.

(338) The laws of Newtonian mechanics were formulated by Sir Isaac Newton in the 17th century.

(339) Sir Isaac Newton's three laws of motion are fundamental principles in classical physics.

(340) Sir Isaac Newton's laws of motion are considered the cornerstone of classical mechanics.

(341) Sir Isaac Newton's laws of motion are the basis for understanding the behavior of waves.

(342) Newton's law of motion is crucial in understanding the behavior of waves and vibrations.

(343) Newton's law of motion is employed in the field of biomechanics to study human movement.

(344) The scientific community continues to build upon the foundation laid by Sir Isaac Newton.

(345) Sir Isaac Newton's theories on gravity were a major breakthrough in the field of physics.

(346) Newton's third law is a concept that has been taught in physics classrooms for centuries.

(347) Isaac Newton's research on gravity paved the way for future advancements in astrophysics.

(348) Isaac Newton's laws of motion are applicable to both macroscopic and microscopic systems.

(349) The legacy of Isaac Newton's scientific achievements will endure for generations to come.

(350) Newton's law of motion is fundamental in understanding the behavior of objects in motion.

(351) Sir Isaac Newton's laws of motion are essential for understanding the behavior of fluids.

(352) Sir Isaac Newton's laws of motion are used to study the motion of planets and satellites.

(353) Sir Isaac Newton's laws of motion are fundamental principles in the study of engineering.

(354) In physics, translational motion is often studied in relation to Newton's laws of motion.

(355) The Black Panthers were founded in Oakland, California by Huey P. Newton and Bobby Seale.

(356) Many famous historical figures, including Isaac Newton and Madonna, have studied Kabbala.

(357) The scientific community recognizes Sir Isaac Newton as a pioneer in the field of physics.

(358) Newton's laws of motion provided a mathematical framework for explaining planetary motion.

(359) Newton's third law is a concept that has been widely accepted in the scientific community.

(360) Isaac Newton's work on calculus was instrumental in solving complex mathematical problems.

(361) The classical school of thought in physics includes theories like Newton's laws of motion.

(362) Understanding Newton's law of motion is crucial in fields such as engineering and physics.

(363) Newton's law of motion is essential in understanding the behavior of objects in free fall.

(364) Sir Isaac Newton's laws of motion are still taught in physics classrooms around the world.

(365) Sir Isaac Newton's laws of motion are applicable to both terrestrial and celestial bodies.

(366) The understanding of Newton's third law of motion is crucial in the field of biomechanics.

(367) The discovery of calculus is attributed to Sir Isaac Newton and Gottfried Wilhelm Leibniz.

(368) Sir Isaac Newton's laws of motion are fundamental to our understanding of how objects move.

(369) Newton's third law of motion explains why rockets are able to propel themselves into space.

(370) The second law of motion is one of the three laws of motion formulated by Sir Isaac Newton.

(371) The law of inertia, as stated in Newton's first law, is a fundamental principle in physics.

(372) The relationship between force, mass, and acceleration is described by Newton's second law.

(373) Newton's second law is crucial in understanding the dynamics of collisions between objects.

(374) Newton's theory of gravitation provided a mathematical framework for understanding gravity.

(375) Newton's law of motion is fundamental in understanding the behavior of atoms and molecules.

(376) Newton's law of motion is used to study the behavior of particles in a gravitational field.

(377) Newton's third law of motion is often used to explain the behavior of waves and vibrations.

(378) The physics students had to cement up their understanding of Newton's laws before the test.

(379) The concept of Newton's third law of motion is applicable to both linear and angular motion.

(380) Understanding Newton's law of motion is crucial for comprehending the principles of physics.

(381) Newton's third law is a principle that has been applied to the study of celestial mechanics.

(382) The catoptrical experiments conducted by Isaac Newton laid the foundation for modern optics.

(383) The ponderal effect of gravity on an object can be calculated using Newton's laws of motion.

(384) Sir Isaac Newton's discoveries in optics led to the development of the reflecting telescope.

(385) Sir Isaac Newton's laws of motion are still used today to calculate the movement of objects.

(386) Newton's law of motion is employed in the design of sports equipment to enhance performance.

(387) Sir Isaac Newton's laws of motion are applicable to both macroscopic and microscopic systems.

(388) The concept of Newton's third law of motion is applicable to both static and dynamic systems.

(389) Newton's third law is a principle that applies to both mechanical and non-mechanical systems.

(390) The joule is defined as the work done by a one-newton force acting over a one-meter distance.

(391) Newton's laws of motion provide a framework for studying the motion of particles and systems.

(392) The law of inertia, as stated in Newton's first law, is a fundamental principle in mechanics.

(393) Newton's law of motion provides a mathematical framework for analyzing the motion of objects.

(394) Newton's law of motion allows us to predict the motion of objects under different conditions.

(395) Understanding Newton's second law is crucial in comprehending the dynamics of moving objects.

(396) Newton's third law is the reason why a swimmer can move forward by pushing against the water.

(397) Sir Isaac Newton's laws of motion can be applied to both macroscopic and microscopic systems.

(398) Sir Isaac Newton's laws of motion are still used to calculate the trajectories of spacecraft.

(399) Newton's law of gravitation is one of the most important discoveries in the field of physics.

(400) Newton's law of motion states that for every action, there is an equal and opposite reaction.

(401) The study of Newton's third law of motion is crucial in designing efficient sports equipment.

(402) The flux density of the gravitational field was calculated using Newton's law of gravitation.

(403) Sir Isaac Newton's work on calculus was instrumental in the development of modern mathematics.

(404) Sir Isaac Newton's intellectual curiosity drove him to explore various scientific disciplines.

(405) Newton's third law of motion can be used to explain the recoil of a jet engine during takeoff.

(406) Newton's third law is a fundamental concept in understanding the interactions between objects.

(407) Newton's law of inertia is why a book on a table remains stationary until someone picks it up.

(408) The quadratic relationship between force and acceleration is described by Newton's second law.

(409) The gravitative force between two objects can be calculated using Newton's law of gravitation.

(410) Newton's second law is used to calculate the force required to lift an object against gravity.

(411) Newton's second law is a fundamental principle that governs the behavior of objects in motion.

(412) When you push a wall, Newton's third law states that the wall pushes back with an equal force.

(413) Newton's theory of gravitation was a major breakthrough in the field of physics and astronomy.

(414) Newton's laws of motion provide a mathematical framework for describing the motion of objects.

(415) Kepler's work laid the foundation for Isaac Newton's laws of motion and universal gravitation.

(416) The laws of classical mechanics were first formulated by Sir Isaac Newton in the 17th century.

(417) Newton's third law is a fundamental concept in understanding the behavior of objects in motion.

(418) Newton's third law is a concept that has been tested and verified through numerous experiments.

(419) Newton's law of motion is the basis for understanding how rockets propel themselves into space.

(420) The equational relationship between force and acceleration is described by Newton's second law.

(421) The attractive force between two particles can be calculated using Newton's law of gravitation.

(422) The law of inertia, as outlined in Newton's first law, is a cornerstone of classical mechanics.

(423) Newton's law of motion is still widely used today to explain the behavior of objects in motion.

(424) The inspirers of the scientific revolution were thinkers like Isaac Newton and Galileo Galilei.

(425) Newton's laws of motion are still taught in schools as a fundamental part of physics education.

(426) The concept of Newton's third law of motion can be extended to fluid dynamics and aerodynamics.

(427) The concept of Newton's third law of motion can be applied to the behavior of gases and fluids.

(428) Many famous historical figures, such as Galileo and Isaac Newton, were interested in astrology.

(429) Newton's third law of motion is a fundamental principle in understanding the behavior of forces.

(430) Newton's law of motion is based on the concept of force and its effect on the motion of objects.

(431) Newton's law of motion is a fundamental principle that underlies many other branches of physics.

(432) The general theory of relativity reconciles Newton's laws of motion with the concept of gravity.

(433) Newton's law of action and reaction is why a balloon flies forward when air is released from it.

(434) The gravitational force between two objects can be calculated using Newton's law of gravitation.

(435) The field intensity of the gravitational field was calculated using Newton's law of gravitation.

(436) Johannes Kepler's theories on the nature of light influenced later scientists like Isaac Newton.

(437) The discovery of Kepler's laws paved the way for Isaac Newton's theory of universal gravitation.

(438) Newton's law of motion is a fundamental principle in understanding the dynamics of the universe.

(439) Newton's laws of motion provide a framework for understanding the behavior of objects in motion.

(440) The apple falling from the tree is often associated with Sir Isaac Newton's discovery of gravity.

(441) Newton's law of motion provides a mathematical framework for understanding the motion of objects.

(442) Newton's law of motion is why a soccer ball slows down and eventually stops rolling on the grass.

(443) Newton's law of motion is why a basketball changes direction when it is passed to another player.

(444) Newton's second law is a fundamental concept in physics that has numerous practical applications.

(445) Newton's theory of gravitation was a major advancement in our understanding of the natural world.

(446) Huygens' wave theory of light challenged the prevailing particle theory proposed by Isaac Newton.

(447) Newton's laws of motion were groundbreaking discoveries that revolutionized the field of physics.

(448) Newton's third law of motion is essential in understanding the behavior of objects in collisions.

(449) The gravitational mass of an object can be calculated using Newton's law of universal gravitation.

(450) Newton's third law of motion can be used to explain the recoil of a firearm after firing a bullet.

(451) Newton's third law of motion is a universal principle that applies to all objects in the universe.

(452) Newton's third law is a principle that has revolutionized our understanding of the physical world.

(453) Newton's law of acceleration relates the force applied to an object to its resulting acceleration.

(454) Newton's law of action and reaction is why a swimmer propels forward by pushing against the water.

(455) The principle of inertia, as described by Newton's first law, is a fundamental concept in physics.

(456) Newton's law of motion helps us understand the relationship between force, mass, and acceleration.

(457) Tycho Brahe's work on the motion of planets laid the groundwork for Isaac Newton's laws of motion.

(458) Newton's laws of motion are based on the concept of force and its effect on the motion of objects.

(459) The laws of motion formulated by Sir Isaac Newton are collectively known as Newton's law of motion.

(460) Newton's law of motion allows us to predict and explain the motion of objects in various scenarios.

(461) Newton's third law is a principle that has been used to develop various technological advancements.

(462) Newton's first law helps us understand why objects tend to resist changes in their state of motion.

(463) Newton's first law explains why a person tends to lean forward when a vehicle suddenly accelerates.

(464) Newton's third law explains why a person's body moves forward when they release air from a balloon.

(465) The second law of motion, also known as Newton's second law, is a fundamental principle in physics.

(466) Sir Isaac Newton's experiments with light and prisms revealed the nature of color and the spectrum.

(467) Sir Isaac Newton's laws of motion are essential for understanding the behavior of objects in space.

(468) Sir Isaac Newton's laws of motion are crucial for understanding the dynamics of mechanical systems.

(469) Newton's third law of motion states that for every action, there is an equal and opposite reaction.

(470) Understanding Newton's law of motion is crucial in comprehending the behavior of objects in motion.

(471) The work done by a force of one newton over a distance of one meter is equal to one kilogram-meter.

(472) The application of Newton's third law of motion is crucial in designing safe and efficient vehicles.

(473) Understanding Newton's third law of motion is essential in analyzing the motion of celestial bodies.

(474) The 'hessians' array is required for calculating the Newton direction in the optimization algorithm.

(475) The law of inertia, outlined in Newton's first law, is a fundamental concept in classical mechanics.

(476) Newton's first law explains why a person tends to move forward when a moving vehicle suddenly stops.

(477) Newton's second law is crucial in analyzing the motion of vehicles and predicting their performance.

(478) Newton's third law explains why a person's body moves backward when they release air from a balloon.

(479) Sir Isaac Newton's laws of motion are the basis for understanding the mechanics of everyday objects.

(480) Newton's law of motion is utilized in the field of robotics to develop efficient locomotion systems.

(481) The concept of orbital motion is central to the laws of planetary motion formulated by Isaac Newton.

(482) Newton's third law of motion is a key principle in understanding the mechanics of sports activities.

(483) Newton's third law of motion helps explain why objects in space continue to orbit around each other.

(484) The application of Newton's third law of motion is crucial in designing efficient propulsion systems.

(485) Newton's third law of motion can be used to explain the recoil of a cannon after firing a projectile.

(486) The laws of motion described by Newton's law of motion are still considered valid in most situations.

(487) The gravitational attraction between two objects can be calculated using Newton's law of gravitation.

(488) The multipole moment of a distribution of masses can be calculated using Newton's law of gravitation.

(489) Some of the notables in the array are groundbreaking scientists like Isaac Newton and Charles Darwin.

(490) Newton's second law helps us understand why it is harder to push a heavier object than a lighter one.

(491) Newton's third law of motion is a fundamental principle in understanding the behavior of projectiles.

(492) Newton's third law of motion is one of the three laws that form the foundation of classical mechanics.

(493) Newton's third law of motion is a fundamental principle that governs the behavior of forces in nature.

(494) Newton's first law helps us understand why it is difficult to change the direction of a moving object.

(495) Newton's third law explains why a rocket propels forward by expelling gases in the opposite direction.

(496) Newton's theory of gravitation is still widely used today to calculate the motion of celestial bodies.

(497) Newton's law of motion provides a fundamental framework for studying the dynamics of physical systems.

(498) Sir Isaac Newton's scientific discoveries continue to influence our understanding of the natural world.

(499) The understanding of Newton's third law of motion is essential in analyzing collisions between objects.

(500) Newton's law of motion provides a fundamental understanding of how forces affect the motion of objects.

(501) Newton's law of motion provides a framework for analyzing the motion of objects in a systematic manner.

(502) Tycho Brahe's observations of the solar system provided crucial data for Isaac Newton's laws of motion.

(503) One joule is equal to the work done when a force of one newton is applied over a distance of one meter.

(504) The dyne is a small unit of force compared to other commonly used units like the newton or pound-force.

(505) Newton's law of motion is often used to calculate the forces acting on objects in real-world scenarios.

(506) Sir Isaac Newton's laws of motion provided a mathematical framework for studying the motion of objects.

(507) Newton's law of motion is utilized in the field of acoustics to understand the behavior of sound waves.

(508) The principle of Newton's third law of motion is applicable to both macroscopic and microscopic systems.

(509) The law of inertia, as described by Newton's first law, is a fundamental concept in the study of motion.

(510) Newton's second law of motion is a powerful tool for analyzing the motion of objects in complex systems.

(511) Newton's second law of motion is a key principle in classical mechanics that has stood the test of time.

(512) Newton's law of gravitation revolutionized our understanding of celestial bodies and their interactions.

(513) Newton's third law of motion helps explain why swimming is possible by propelling oneself through water.

(514) Many famous historical figures were interested in astrology, including Isaac Newton and Galileo Galilei.

(515) The physics students were studying the properties of mortar through the lens of Newton's laws of motion.

(516) Galileo Galilei's theories on motion and gravity laid the foundation for Isaac Newton's laws of physics.

(517) Understanding Newton's third law of motion is crucial in comprehending the dynamics of objects in motion.

(518) The field strength of the gravitational field was calculated using Newton's law of universal gravitation.

(519) Newton's second law is essential in understanding the relationship between force, mass, and acceleration.

(520) Newton's law of gravitation allows us to understand the forces that keep planets in orbit around the sun.

(521) Newton's laws of motion are used in the design and analysis of structures, such as bridges and buildings.

(522) The concept of Newton's third law of motion is integral to the study of energy transfer and conservation.

(523) Some famous figures throughout history, such as Isaac Newton and Madonna, have been interested in qabala.

(524) Galileo Galilei's work on the laws of motion paved the way for Isaac Newton's groundbreaking discoveries.

(525) Newton's law of motion allows us to calculate the motion of objects under the influence of various forces.

(526) Newton's law of motion is a fundamental concept in physics that governs the behavior of objects in motion.

(527) Understanding Newton's law of motion is essential for understanding the fundamental principles of physics.

(528) Newton's law of inertia is why a moving car continues to move forward even when the gas pedal is released.

(529) Newton's first law helps us understand why a ball thrown into the air eventually falls back to the ground.

(530) Newton's second law is used to calculate the force required to accelerate an object to a desired velocity.

(531) Newton's law of action and reaction states that for every action, there is an equal and opposite reaction.

(532) Newton's third law of motion is a cornerstone principle in understanding the behavior of forces in nature.

(533) The binomial expansion was first discovered by the English mathematician Isaac Newton in the 17th century.

(534) Sir Isaac Newton's theories on gravity provided a unified explanation for celestial and terrestrial motion.

(535) Newton's law of motion is still widely used today to analyze and predict the behavior of objects in motion.

(536) Newton's second law allows us to calculate the acceleration of an object when the force and mass are known.

(537) Newton's second law is a testament to the power of mathematical equations in describing the physical world.

(538) The discovery of the theory of gravity by Isaac Newton was an epochally significant scientific achievement.

(539) Kinematical studies have shown that the motion of particles can be described using Newton's laws of motion.

(540) Newton's law of motion explains how an object's velocity changes when it is subjected to an external force.

(541) Newton's second law allows us to determine the acceleration of an object when the force and mass are known.

(542) Newton's law of universal gravitation helped explain the tides and the motion of the moon around the Earth.

(543) Leibniz was a contemporary of Isaac Newton and the two had a famous dispute over the invention of calculus.

(544) The understanding of Newton's third law of motion is crucial in designing efficient energy transfer systems.

(545) The first law of motion, proposed by Sir Isaac Newton, revolutionized our understanding of how objects move.

(546) Newton's first law explains why a book placed on a table remains at rest until an external force is applied.

(547) Newton's third law explains why a person feels a force pushing them backward when a car accelerates forward.

(548) Newton's third law is the reason why a person feels a force pushing them backward when a car suddenly stops.

(549) Newton's third law of motion can be observed in everyday situations, such as when a ball bounces off a wall.

(550) Isaac Newton's contributions to science have had a lasting impact on our understanding of the natural world.

The word usage examples above have been gathered from various sources to reflect current and historical usage of the word Newton. They do not represent the opinions of TranslateEN.com.