Prism in a sentence

(1) I saw a prism in the window.

(2) A prism is a refractive object.

(3) The shape of a prism is angular.

(4) A rainbow can appear in a prism.

(5) A glass prism can be refractive.

(6) The edges of a prism are angular.

(7) The decahedron is a regular prism.

(8) There are seven colors in a prism.

(9) I found a prism in my science kit.

(10) Catch the iridescence with a prism.

Prism sentence

(11) The prism makes brilliant rainbows.

(12) A prism is a three-dimensional shape.

(13) The prism refracts the incoming light.

(14) The crystal prism reflected the light.

(15) The crystal prism refracted the light.

(16) The colors of the prism were gorgeous.

(17) A triangle can be used to make a prism.

(18) The rainbow is visible through a prism.

(19) The base area of the prism is a polygon.

(20) We admired through the prism of empathy.

Prism make sentence

(21) We admired through the prism of respect.

(22) I bought a small prism at the gift shop.

(23) My teacher showed us how to use a prism.

(24) The prism can bend light in unique ways.

(25) The light will refract through the prism.

(26) The beamlets were refracted by the prism.

(27) A prism is a tool that can refract light.

(28) A triangle is the basic shape of a prism.

(29) The rays of light bend out from the prism.

(30) The pyramid and the prism are coterminous.

Sentence of prism

(31) A hexagonal prism can be used in geometry.

(32) The equiangular prism has six equal faces.

(33) Brachyprism is also known as a short prism.

(34) The crystal prism toy was fun to play with.

(35) The crystal had a hexagonal prism structure.

(36) A quadrangular prism is a symmetrical shape.

(37) A parallelogram can be used to make a prism.

(38) The prism was transparent and crystal clear.

(39) The prism created a beautiful visual effect.

(40) The spectrum line was observed using a prism.

Prism meaningful sentence

(41) The rectangular prism has a volume of 75 cm3.

(42) A quadrangular prism is a type of polyhedron.

(43) Astigmias can be corrected with prism lenses.

(44) Extrude along a line to create a prism shape.

(45) The crystal prism made a rainbow on the wall.

(46) The ray of light refracted through the prism.

(47) The base number of this prism is a rectangle.

(48) We admired through the prism of understanding.

(49) The prism collimates the light for dispersion.

(50) The vertex of a prism is where two bases meet.

Prism sentence examples

(51) Let's define what a cylinder prism looks like.

(52) The crystal prism split the light into colors.

(53) The vertex of a prism is where two faces meet.

(54) The prism was crafted from high-quality glass.

(55) The bevel of the glass created a prism effect.

(56) Esotropia can be corrected with prism glasses.

(57) A cube is a special type of quadrangular prism.

(58) The prism is bisected by the plane of symmetry.

(59) Aniseikonias can be managed with prism glasses.

(60) A rainbow can appear during a prism or crystal.

Sentence with prism

(61) I found a prism on the ground and took it home.

(62) The rainbow fish's scales sparkled like a prism.

(63) Brachyprism is used to describe a type of prism.

(64) The prism split the light into chromatic colors.

(65) The shape of the prism is convex below the base.

(66) Let's define what a pentagonal prism looks like.

(67) The prism was difficult to see in the dim light.

(68) The hexangular prism is a common geometric shape.

(69) A rectangular prism is another name for a cuboid.

(70) The prism will refract into a spectrum of colors.

Use prism in a sentence

(71) The prism revealed the chromatic nature of light.

(72) The prism was used to split light achromatically.

(73) The crystal prism split the light into a rainbow.

(74) The crystal prism refracted light into a rainbow.

(75) A hexagonal prism has six faces and twelve edges.

(76) The sun's light can be refracted through a prism.

(77) He uses a prism to study the properties of light.

(78) The prism refracted the light at a perfect angle.

(79) The light refracts as it passes through the prism.

(80) The hexagonal prism is a common shape in geometry.

Sentence using prism

(81) The triangular prism is a three-dimensional shape.

(82) The sunn's light can be refracted through a prism.

(83) The ameloblasts regulate enamel prism orientation.

(84) The rectangular prism is a four-sided solid shape.

(85) The angulates of the prism shape were rectangular.

(86) The rhombic prism refracted light in a unique way.

(87) Anisometropias can be corrected with prism lenses.

(88) I want you to define what a cube prism looks like.

(89) The prism can irradiate colors through refraction.

(90) The crystal prism was used in science experiments.

Prism example sentence

(91) The bipyramid is a prism with two triangular bases.

(92) The cuboid bone is shaped like a rectangular prism.

(93) The prism deflects the light into different colors.

(94) The prism was able to refract light achromatically.

(95) The prism emits color when light passes through it.

(96) The prism has two parallel bases and angular sides.

(97) The prism created a spectrum of colors on the wall.

(98) The dodecagonal prism is a common shape in geometry.

(99) The quadrates of a prism are always equal in length.

(100) The trihedral prism was used in the geometry lesson.

Sentence with word prism

(101) The prism split the light into a chromatic spectrum.

(102) The base of a quadrangular prism is a quadrilateral.

(103) The orthobicupola is a dual of the pentagonal prism.

(104) A prism can split white light into different colors.

(105) A hexagonal prism can be used to create a lampshade.

(106) The prism split the light into its component colors.

(107) He discovered a new property of light using a prism.

(108) I was fascinated by the way the prism bent the light.

(109) Diplopia can be managed with the use of prism lenses.

(110) The pencil eraser is shaped like a rectangular prism.

Sentence of prism

(111) The prism refracts light into its refrangible colors.

(112) The decahedral prism refracted light in a unique way.

(113) The colors of the rainbow intermix through the prism.

(114) I need you to define what a pyramid prism looks like.

(115) Refraction happens when light passes through a prism.

(116) Refractive errors can be corrected with prism lenses.

(117) The crystal prism refracted the light into a rainbow.

(118) I used a prism to create a rainbow effect on the wall.

(119) The light passed transversely through the glass prism.

(120) The glass prism will refract into a rainbow of colors.

Prism used in a sentence

(121) The heptagonal prism is a fascinating geometric shape.

(122) Refractive light can be used to make a prism necklace.

(123) The colors of the rainbow are visible through a prism.

(124) Esotropia can be managed with the use of prism glasses.

(125) The prism split the ray of light into different colors.

(126) The prism rainbowed the light into a beautiful display.

(127) We admired through the prism of cultural understanding.

(128) The crystal shape of the emerald was a hexagonal prism.

(129) The glass prism will refract into a spectrum of colors.

(130) The glass prism split the light into a prismy spectrum.

Prism sentence in English

(131) The tetragonal prism refracted light in a specific way.

(132) The blue through the prism created a rainbow of colors.

(133) The prism splits light into chromatic by nature colors.

(134) The light can morph into different colors with a prism.

(135) The crystal prism made a beautiful pattern on the wall.

(136) The vertex of a prism is where two parallel bases meet.

(137) The light passed through a prism and created a rainbow.

(138) The prism demonstrated the concept of light refraction.

(139) We spent hours experimenting with the prism in the lab.

(140) The light beam was diffused by passing through a prism.

(141) Strabismus can be managed with the use of prism glasses.

(142) The prism rainbowed the light into a spectrum of colors.

(143) The triangular prism is a fundamental shape in geometry.

(144) The three-sided prism refracted light in various colors.

(145) The absorption of light by a prism causes it to refract.

(146) A quadrangular prism has rotational symmetry of order 4.

(147) The decahedral prism refracted light in a beautiful way.

(148) The six edges are coplanar and form a rectangular prism.

(149) The prism emitted opalescence as it refracted the light.

(150) The crystal prism split the light into different colors.

(151) The crystal prism split light into its different colors.

(152) The two sides of a rectangular prism are equal in pairs.

(153) The sun's rays can be seen as they pass through a prism.

(154) The crystal prism experiment was a hit in science class.

(155) A quadrangular prism has eight vertices and twelve edges.

(156) A quadrangular prism can be made from paper or cardboard.

(157) The rhomboidal prism refracted the light in a unique way.

(158) The light diffracts from the prism and creates a rainbow.

(159) The prism allowed us to see the world in a different way.

(160) Convergent strabismus can be corrected with prism lenses.

(161) A quadrangular prism is also known as a rectangular prism.

(162) The three-sided prism refracted light in interesting ways.

(163) Catch the opalescence with a prism to see its true colors.

(164) A quadrangular prism has two parallel and congruent bases.

(165) A prism can split a beam of photons into different colors.

(166) The two sides of a rectangular prism are not always equal.

(167) The physics lab required us to rotate the prism clockwise.

(168) I used a prism to refract light and create my own rainbow.

(169) The prism allowed us to see the hidden colors in sunlight.

(170) The sidedness of the prism affects the refraction of light.

(171) The prism was carefully positioned to capture the sunlight.

(172) The deflexion of the laser beam was measured using a prism.

(173) Treatment options for aniseikonia may include prism lenses.

(174) The trapezohedral prism had a base with four unequal sides.

(175) The colors of the rainbow invert during a prism experiment.

(176) The rectangular prism is a four-sided solid with six faces.

(177) The rectangular prism had four-sided faces and sharp edges.

(178) The crystal prism split the light into a rainbow of colors.

(179) A prism can be used in a variety of scientific experiments.

(180) The doctor prescribed prism glasses to correct aniseikonia.

(181) The equilateral angles of the prism made it a regular solid.

(182) The prism created a stunning display of colors on the floor.

(183) A quadrangular prism can be used to model a rectangular box.

(184) The base area of the rectangular prism is 100 square inches.

(185) The crystal prism refracted light angulately into a rainbow.

(186) The rhomboidal prism refracted the light in a beautiful way.

(187) The prism separates white light into different colored rays.

(188) A prism has two identical faces and a set of parallel edges.

(189) The crystal prism refracted the light into different colors.

(190) The prism split the light into a rainbow of colors and rays.

(191) The angle of a prism is determined by the shape of its base.

(192) The prism shattered into tiny pieces when it hit the ground.

(193) The scientist studied the behavior of a light ray in a prism.

(194) The base area of the prism is the surface on which it stands.

(195) I had to wear prism glasses to help correct my double vision.

(196) The scientist studied the properties of the prism in the lab.

(197) The children were amazed by the rainbow created by the prism.

(198) The two beams of light traveled parallelly through the prism.

(199) The prism will mirror back out the different colors of light.

(200) Optically, the prism split the light into its various colors.

(201) The lateral faces of a quadrangular prism are all rectangles.

(202) The prism's brilliance is seen in its ability to split light.

(203) The wave front of the light beam refracted through the prism.

(204) The prism experiment allows you to see how light emits color.

(205) The laser beam through the prism created a rainbow of colors.

(206) A scalene triangle can be used to create a prism in geometry.

(207) Write down the formula for the volume of a rectangular prism.

(208) The physics lab has a glass prism for experiments with light.

(209) The prism is commonly used in photography and cinematography.

(210) The prism refracted the white light into its component colors.

(211) A quadrangular prism can be used to model a building or a box.

(212) The light will refract through to the other side of the prism.

(213) Catch the iridescence with a prism and watch the colors dance.

(214) A prism has two identical angular bases and rectangular sides.

(215) The scientist studied the distortion of light through a prism.

(216) The prism separated the white light into a spectrum of colors.

(217) A hexagonal prism can be used to create a kaleidoscope effect.

(218) The vertex of the prism is the point where the two bases meet.

(219) She studied the properties of light with a prism as her guide.

(220) The scientist studied the dispersion of light through a prism.

(221) The base area of the rectangular prism is the area of its base.

(222) The artist used a prism to split the ray onto different colors.

(223) The prism split the light into a colorful ray through the room.

(224) The lateral edges of a quadrangular prism are always congruent.

(225) The crystal prism refracted the light into a rainbow of colors.

(226) The refractiveness of the prism split the light into a rainbow.

(227) The absorption of light by a prism can create a rainbow effect.

(228) The achromatic prism split the light into its component colors.

(229) The Burris AR-332 is a popular prism sight for tactical rifles.

(230) The colors will refract through the prism and create a rainbow.

(231) A prism separates white light into different colors of photons.

(232) A rectangular prism has six faces, all of which are rectangles.

(233) The sun's light radiated through the prism to create a rainbow.

(234) The photon was reflected by the prism, and it formed a rainbow.

(235) The prism was carefully aligned to ensure accurate measurements.

(236) The scientist observed a ray of light passing through the prism.

(237) The refrangibility of the prism causes the dispersion of colors.

(238) The cross-section of a quadrangular prism is always a rectangle.

(239) The lateral faces of a quadrangular prism are always rectangles.

(240) The diagonal in the square prism connects two opposite vertices.

(241) The achromat prism splits white light into its component colors.

(242) The teacher explained how a prism can cause distortion of light.

(243) The prism separated the white light into different colored rays.

(244) The two sides of the prism are parallel and have the same shape.

(245) The angle of a prism is the angle between the base and the side.

(246) The physicist used a prism to bend the ray onto a different path.

(247) The diffractions of light waves through a prism create a rainbow.

(248) The prism refracted the incident light into a spectrum of colors.

(249) Exotropia can sometimes be managed with the use of prism glasses.

(250) A quadrangular prism can be used to model a rectangular aquarium.

(251) A rectangular prism is a solid figure with six rectangular faces.

(252) A quadrangular prism is a three-dimensional shape with six faces.

(253) The prism's rays of light can be used to create a rainbow effect.

(254) The sun's rays were refracted by the prism and created a rainbow.

(255) The crystal prism was used in science experiments to study light.

(256) The prism refracted the light into a beautiful spectrum of colors.

(257) The prism split the beam of light into its individual wavelengths.

(258) The prism was carefully calibrated to ensure precise measurements.

(259) The artist used a prism to add depth and dimension to the artwork.

(260) The triangular prism is a three-dimensional shape with five faces.

(261) The cuboid is a geometric shape that can be classified as a prism.

(262) The polyhedral prism refracted the light in a mesmerizing display.

(263) The decahedral prism refracted the light in a mesmerizing pattern.

(264) The refracting prism splits white light into its component colors.

(265) The light waves in a prism oscillate with the refraction of light.

(266) A quadrangular prism has eight vertices and six rectangular faces.

(267) The bases of a quadrangular prism are always congruent rectangles.

(268) The absorption of light by a prism can create a rainbow of colors.

(269) The tacheometer is equipped with a telescope and a rotating prism.

(270) A rectangular prism has eight vertices in three dimensional space.

(271) The trapezoidal prism is a three-dimensional shape with four faces.

(272) The phase shift of the light wave can be manipulated using a prism.

(273) The photographer captured the distortions of light through a prism.

(274) The dispersal of light through a prism can create a rainbow effect.

(275) The photographer used a prism to create unique and abstract images.

(276) A tetragon can be used to represent the base of a pyramid or prism.

(277) The quadrates of a rectangular prism can have different dimensions.

(278) The polyhedral prism refracted the light into a spectrum of colors.

(279) The light from a flashlight diffracts as it passes through a prism.

(280) Light passing through a prism can separate into the color spectrum.

(281) The centre of mass of a uniform prism lies at its geometric center.

(282) The shape factor of a prism is determined by the shape of its base.

(283) The artist created a sculpture in the form of a dodecahedral prism.

(284) The prism split the sunlight into a beautiful spectrum of see light.

(285) The diffusion of light through a prism creates a beautiful spectrum.

(286) The dispersal of light through a prism creates a spectrum of colors.

(287) The dispersion of light through a prism creates a beautiful rainbow.

(288) The glass prism emitted iridescence when sunlight passed through it.

(289) The laser beam off the prism created a beautiful spectrum of colors.

(290) The crystal shape of the aquamarine was a pale blue hexagonal prism.

(291) The trapezohedral prism was used in the experiment to refract light.

(292) The rhombohedron is a solid shape that can be classified as a prism.

(293) The flint-glass prism refracted the light into a beautiful spectrum.

(294) The bases of a quadrangular prism are always parallel to each other.

(295) The prism emitted a spectrum of colors when light passed through it.

(296) The diagonal in the rectangular prism bisects the rectangular faces.

(297) The glass prism caused the light to refract into a spectrum of hues.

(298) The wavefront of the light refracted as it passed through the prism.

(299) The glass prism rainbowed the white light into a spectrum of colors.

(300) The bisector of a prism's base also bisects the height of the prism.

(301) The frusta of the prism were stacked to create a colorful sculpture.

(302) The professor explained the concept of light rays beneath the prism.

(303) The grain across the glass surface created a beautiful prism effect.

(304) The dispersion of light through a prism is a fascinating phenomenon.

(305) The shape factor of a prism is determined by the number of its sides.

(306) The teacher explains how light deflexes when passing through a prism.

(307) The pentagonal prism is a common geometric shape used in mathematics.

(308) The height of a quadrangular prism is the distance between its bases.

(309) The colors of the visible spectrum can be seen in a prism experiment.

(310) The glass prism gleamed by the sunlight streaming through the window.

(311) The prism refracted the incident light, creating a beautiful rainbow.

(312) The optician prescribed prism lenses to correct the patient's phoria.

(313) The orthoptist recommended prism glasses to correct my double vision.

(314) The light will refract through the prism and create a rainbow effect.

(315) An isosceles prism has congruent bases and rectangular lateral faces.

(316) The doctor used a gonioscopy prism to examine the patient's eye angle.

(317) I need to wear prism glasses to correct the misalignment in my vision.

(318) The researcher used a prism to refract the ray onto a different angle.

(319) The brachydiagonals of a rectangular prism may have different lengths.

(320) The bisectrix of a prism's angle divides it into two equal base areas.

(321) The irides of a prism can split white light into its component colors.

(322) The light entering the triangular prism refracted at different angles.

(323) The triangular prism is a commonly used shape in 3D computer graphics.

(324) The trapezoidal prism is a common geometric shape used in mathematics.

(325) The absorption of light by a prism can split it into different colors.

(326) The crystal prism in my science kit is crystalline and makes rainbows.

(327) The light ray passed through the prism and split into different colors.

(328) Isolating a specific wavelength of light can be achieved using a prism.

(329) The vertex of the hexagonal prism is the point where its bases connect.

(330) The prism was made of high-quality glass for accurate light dispersion.

(331) The light passed through the prism and emerged as a beautiful spectrum.

(332) The prism was used in the optical instrument to enhance the resolution.

(333) The laser beam deflects off the prism and creates a beautiful spectrum.

(334) The architect designed a building with a unique triangular prism shape.

(335) The triangular prism is a common shape used in architecture and design.

(336) A quadrangular prism has four rectangular faces and two parallel bases.

(337) The wave length of a wave can be altered by passing it through a prism.

(338) The scientist used a triangular prism to study the dispersion of light.

(339) The refractions of light through the prism created a beautiful rainbow.

(340) The scientist studied the achromatism of light passing through a prism.

(341) The anastigmatic prism ensured accurate measurements in the experiment.

(342) The anastigmatic prism corrected the chromatic aberration in the light.

(343) The dispersion of light through a prism is a common physics experiment.

(344) The intersection point of the two beams of light created a prism effect.

(345) The refraction of light through a prism can create a spectrum of colors.

(346) Visible light can be separated into its individual colors using a prism.

(347) The prism was used in the experiment to analyze the properties of light.

(348) The prism was used in the laser experiment to manipulate the light beam.

(349) The triangular prism is a shape that is often used in art and sculpture.

(350) The optician prescribed prism glasses to correct the patient's vergence.

(351) The aplanatic prism corrected for optical distortions in the light path.

(352) The edges of a quadrangular prism are always perpendicular to the bases.

(353) The triangular prism is a symmetrical shape with equal angles and sides.

(354) Let's catch the opalescence with a prism and create a rainbow of colors.

(355) I want to catch the opalescence with a prism and project it onto a wall.

(356) The centroid of a prism is the point where its axis intersects the base.

(357) The strabismic patient's eye turn improved with the use of prism lenses.

(358) The diffractions of light through the prism created a beautiful rainbow.

(359) The wavefronts of the light passing through the prism created a rainbow.

(360) The prismatic spectrum of light can be seen when passing through a prism.

(361) The scientist used a prism to refract the light and study its properties.

(362) The prism was used in the telescope to enhance the clarity of the images.

(363) The crystal's hexagonal prism shape refracted light in a mesmerizing way.

(364) The orthoptist fits patients with prism glasses to correct double vision.

(365) The conductions of light through a prism can create a beautiful spectrum.

(366) The prism separated the white light into a continuous spectrum of colors.

(367) The photographer used a prism to give a touch of brilliance to the photo.

(368) The optometrist prescribed prism lenses to correct the misaligned vision.

(369) The prism was able to split the light into its components achromatically.

(370) The crystal prism in the window is also crystalline and creates rainbows.

(371) The artist used a glass prism to create a rainbow effect in her painting.

(372) The scientist used a prism to deflect the light and study its properties.

(373) The photon entered the prism, and it was refracted into different colors.

(374) Using a prism can help determine the chemical composition of a substance.

(375) The backspeiring of the prism made it look like the colors were reversed.

(376) The angles-of-incidence of the prism determine the colors of the rainbow.

(377) The artist used a trapezohedral prism to create a stunning light display.

(378) When light passes through a prism, it will refract into different colors.

(379) The base area of the prism is the sum of the areas of its polygonal bases.

(380) The refraction of light through a glass prism can create a rainbow effect.

(381) The polarized light passing through the prism split into different colors.

(382) The prism was carefully polished to minimize any distortions in the light.

(383) The light spectrum can be observed using a prism or a diffraction grating.

(384) The paraxial rays are used to calculate the angle of deviation in a prism.

(385) A quadrangular prism can be used to represent a rectangular swimming pool.

(386) The scientist studied how light achromatizes when passing through a prism.

(387) The triangular prism is a popular shape for building architectural models.

(388) I want to catch the opalescence with a prism and project it onto a screen.

(389) The absorption of colors by a prism separates white light into a spectrum.

(390) The artist used a glass prism to create a rainbow of colors on the canvas.

(391) The light was diffracting through the prism, creating a beautiful rainbow.

(392) The centroid of a regular prism is the point where its diagonals intersect.

(393) The spectrum line was used to investigate the behavior of light in a prism.

(394) A quadrangular prism can be used to model a rectangular prism-shaped table.

(395) The refractivity of a prism causes light to separate into different colors.

(396) The prism refracted the light ray, creating a beautiful spectrum of colors.

(397) The glass prism emits iridescence, splitting light into its various colors.

(398) The patient's aniseikonic vision was improved with the use of prism lenses.

(399) The project requires you to cube along the diagonal of a rectangular prism.

(400) The prism was placed in front of the camera lens to create a special effect.

(401) The phenomenon of lensing can be observed when light passes through a prism.

(402) The optician adjusted the prism strength to optimize the patient's vergence.

(403) The deflexion of the sunlight through the prism created a beautiful rainbow.

(404) The student learned how to calculate the surface area of a hexahedral prism.

(405) The caustics produced by the prism created a spectrum of colors on the wall.

(406) The shape of scalenohedra can be visualized as a distorted triangular prism.

(407) The lateral edges of a quadrangular prism are always parallel to each other.

(408) When light passes through a prism, it can refract into a spectrum of colors.

(409) The prism refracted the light, producing a rainbow-like pattern on the wall.

(410) The sol's light is refracted through a prism, creating a spectrum of colors.

(411) The strabismic individual had to wear prism lenses to help align their eyes.

(412) The light passing through the triangular prism created a spectrum of colors.

(413) The light entering the triangular prism bent due to the change in its speed.

(414) The land surveyor used a prism pole to measure horizontal angles accurately.

(415) The prism caused the light to refract into a spectrum of colors on the wall.

(416) The prism refracted the light rays towards different colors of the spectrum.

(417) The artist used a prismoid prism to create a rainbow effect in her painting.

(418) The surveyor used a rightangled prism to measure the height of the building.

(419) The refractivities of the light passing through the prism caused it to bend.

(420) The refractivity of a prism causes light to split into its component colors.

(421) A rectangular prism is a three dimensional shape with six rectangular faces.

(422) The teacher explained how a prism causes a distortion of the light spectrum.

(423) The student used a glass prism to split the light into its different colors.

(424) A rectangular prism is a three-dimensional shape with six rectangular faces.

(425) I managed to catch the beam with a prism and split it into different colors.

(426) I have esotropia, and my doctor recommended eye exercises and prism glasses.

(427) The prism separates white light into its component colors through refraction.

(428) The artist used a prism to add an interesting visual element to the painting.

(429) I used a triangular prism to demonstrate the concept of volume in math class.

(430) The artist used a triangular prism as inspiration for their latest sculpture.

(431) The percolation of light through a prism results in the dispersion of colors.

(432) The scientist used a prism to break down into light and study its properties.

(433) The pentangular prism is a geometric shape with five faces and five vertices.

(434) The child's exotropia improved after wearing glasses with a prism correction.

(435) The crew used a prism to reflect the laser beam for measuring azimuth angles.

(436) The transmittance of light through the prism caused the dispersion of colors.

(437) The critical angle is a key factor in determining the performance of a prism.

(438) The pentangular prism was a challenging shape to work with in geometry class.

(439) The catoptrical effect of the prism split the light into a rainbow of colors.

(440) The dispersal of light through a prism can create a beautiful rainbow effect.

(441) The lab report required us to bisect upon the prism to find the lateral area.

(442) The wave length of a light wave can be refracted when passing through a prism.

(443) The scientist explained the concept of refraction using a prism as an example.

(444) The light passed through the prism and created a stunning pattern on the wall.

(445) The prism was used in the physics lab to demonstrate the principles of optics.

(446) The prism split the light into a spectrum of colors with its facetted surface.

(447) A quadrangular prism can be used to represent a rectangular prism-shaped room.

(448) The prism can be used to concentrate radiation into different colors of light.

(449) When light passes through a prism, it breaks into photons of different colors.

(450) The scientist used milliradians to measure the angle of refraction in a prism.

(451) The ophthalmologist used a gonioscopy prism to visualize the angle structures.

(452) The triangular prism is a stable structure that can withstand external forces.

(453) The base area of the triangular prism is always greater than the lateral area.

(454) The architect designed a modern building with a unique triangular prism shape.

(455) The refraction of light through a prism creates a beautiful spectrum of colors.

(456) The prism was used in the photography studio to create unique lighting effects.

(457) The light passed through the prism and created a mesmerizing display of colors.

(458) The principal axis of a prism determines the angle at which light is refracted.

(459) The absorbabilities of different colors of light can be observed using a prism.

(460) The trapezohedral prism was used to split light into its different wavelengths.

(461) The accretionary prism is a geological feature formed by sediment accumulation.

(462) The sunlight passes through the prism, creating a beautiful spectrum of colors.

(463) The triangular prism is a common shape used in optical devices like binoculars.

(464) The artist used a crystalline prism to create a rainbow effect in her painting.

(465) The homework assignment involves cubing along the edges of a rectangular prism.

(466) The refractometer is equipped with a prism that allows for precise measurements.

(467) The mathematician proved a theorem about the surface area of a hexahedral prism.

(468) The solid figure of a rectangular prism is commonly seen in buildings and boxes.

(469) The solid figure of a rectangular prism has six rectangular faces of equal size.

(470) I used a triangular prism to demonstrate the concept of volume in my math class.

(471) The triangular prism is a popular shape for decorative vases and candle holders.

(472) The aplanatic prism ensured that the light was refracted without any distortion.

(473) I had to wear special prism glasses to correct my vision and stop seeing double.

(474) The prism was used to demonstrate the concept of dispersion in the physics class.

(475) The light passed through the prism and formed a beautiful spectrum on the screen.

(476) The refracting prism in the physics lab is used to study the properties of light.

(477) A quadrangular prism can be used to model buildings with rectangular floor plans.

(478) When the prism is hit by sunlight, it breaks down into light of different colors.

(479) The angle by means of which the light enters the prism determines its refraction.

(480) The particle of light refracted through the prism, creating a spectrum of colors.

(481) The crystal paperweight caught the sunlight and created a beautiful prism effect.

(482) A triangular prism is a solid figure with triangular bases and rectangular faces.

(483) The aplanat prism is used in optical instruments to correct chromatic aberration.

(484) My sister and I did an experiment to see if we could make a rainbow with a prism.

(485) The triangular prism is a prism with triangular bases and three rectangular faces.

(486) The diffraction of light through a prism separates it into its constituent colors.

(487) The aplanatic prism ensured accurate light dispersion in spectroscopy experiments.

(488) The refractions of light through the prism created a beautiful spectrum of colors.

(489) A quadrangular prism can be used to represent a rectangular prism-shaped building.

(490) The shape factor of a hexagonal prism is determined by its side length and height.

(491) The light passing through the triangular prism created a beautiful rainbow effect.

(492) The artist used a triangular prism to create an illusion of depth in the painting.

(493) Orthoptic treatment may involve the use of prism glasses to correct eye alignment.

(494) My nephew has esotropia, and he wears glasses with a prism to help align his eyes.

(495) The triangular prism is a shape that is commonly used in geometry and trigonometry.

(496) The triangular prism is a shape that is often used in educational toys and puzzles.

(497) The artist used a prism to create a spectrum of colors from a single ray off light.

(498) The artist used a prism to create a continuous spectrum of colors in their artwork.

(499) The orthorhombic crystal structure is characterized by its rectangular prism shape.

(500) The angles-of-incidence of the light on a prism determine the dispersion of colors.

(501) The unmodulated light beam passed straight through the prism without any deviation.

(502) The height of a quadrangular prism is the perpendicular distance between its bases.

(503) A quadrangular prism can be used to represent a rectangular prism-shaped container.

(504) The triangular prism is a polyhedron with six faces, nine edges, and five vertices.

(505) The light passing through a triangular prism can create a beautiful rainbow effect.

(506) The student used a triangular prism to create a unique lampshade for their bedroom.

(507) The photographer used a prism to refract light and add a unique effect to the photo.

(508) The prism was used in the architectural design to create interesting light patterns.

(509) The triangular prism is often used in physics experiments to study light refraction.

(510) The triangular prism is a solid shape that has three sides and two triangular bases.

(511) The triangular prism is a shape that is often used in the study of light and optics.

(512) The diffusibility of light through the prism created a beautiful spectrum of colors.

(513) The redshifted colors of a rainbow can be seen when sunlight passes through a prism.

(514) The artist used a prism to create a continuous spectrum of colors in their painting.

(515) The refractiveness of the prism separated the white light into its different colors.

(516) The prism refracted the light, causing it to break into photons of different colors.

(517) The surveyor used a theodolite and a prism to measure convergence angles accurately.

(518) The minor axis of a prism is the line connecting the centers of the polygonal bases.

(519) I always forget the formula for finding the volume of a cube as a rectangular prism.

(520) The equiangular properties of the prism allow it to refract light in a specific way.

(521) The numerator of the fraction can be used to find the volume of a rectangular prism.

(522) The artist used a crystalline prism to create a kaleidoscope effect in her painting.

(523) A prism is a three-dimensional shape with two identical bases and rectangular sides.

(524) The scientist conducted experiments to study the behavior of light through the prism.

(525) The triangular prism is a versatile shape that can be found in many everyday objects.

(526) The triangular prism is a shape that is often used in the design of modern buildings.

(527) The triangular prism is a shape that is frequently used in the field of architecture.

(528) The triangular prism is a shape that is often used in the field of industrial design.

(529) The birefringence of the glass prism causes the light to refract at different angles.

(530) The prism refracted the light into a spectrum of colors through its facetted surface.

(531) The diamond-shaped paperweight caught the light and created a beautiful prism effect.

(532) The scientist used a triangular prism to split white light into its different colors.

(533) The artist used a triangular prism to create an interesting play of light and shadow.

(534) The triangular prism is a stable shape that can be stacked to form larger structures.

(535) The refractile nature of the prism was used to split light into its component colors.

(536) The aplanat prism is used in optical instruments to correct for chromatic aberration.

(537) The photographer used a prism to create a rainbow-colored shaft of light in the photo.

(538) The lucidum layer of a crystal can create a prism effect when light passes through it.

(539) The triangular prism is a shape that is commonly used in construction and engineering.

(540) The glass prism can refract through to separate white light into its different colors.

(541) The cubic measure of a triangular prism can be used to determine the volume of a tent.

(542) A quadrangular prism is a three-dimensional shape with two parallel rectangular bases.

(543) The architect incorporated a large triangular prism into the design of the skyscraper.

(544) The dispersive power of the prism separated the white light into its component colors.

(545) The artist used a crystal to refract light and create a prism effect in their painting.

(546) The trigonal prism shape of the crystal is formed by the stacking of triangular layers.

(547) The bending of light as it passes through a prism is a captivating physical phenomenon.

(548) The orthoptic specialist recommended wearing prism glasses to correct my double vision.

(549) The trapezohedral prism was used to study the refraction of light in different mediums.

(550) The diagonal in the triangular prism divides it into two congruent triangular pyramids.

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