Use "Solar Radiation" in a sentence | "Solar Radiation" sentence examples
Solar radiation refers to the electromagnetic energy emitted by the Sun, which reaches the Earth's surface. It plays a crucial role in various natural processes and is also harnessed for numerous applications. To effectively incorporate the term "solar radiation" into your sentences, consider the following tips:
1. Definition and Context: Begin by providing a concise definition of solar radiation to ensure clarity for your readers.
For example, "Solar radiation, also known as sunlight, refers to the electromagnetic energy emitted by the Sun that reaches the Earth's surface."
2. Scientific Explanation: To enhance your sentence, you can delve deeper into the scientific aspects of solar radiation. For instance, "Solar radiation consists of a broad spectrum of electromagnetic waves, including ultraviolet (UV), visible light, and infrared (IR) radiation."
3. Environmental Impact: Highlight the significance of solar radiation in the environment. For instance, "Solar radiation is essential for various ecological processes, such as photosynthesis in plants, which converts sunlight into chemical energy."
4. Solar Energy Applications: Discuss the practical applications of solar radiation, particularly in the context of renewable energy.
For example, "Solar radiation is the primary source of energy for solar panels, which convert sunlight into electricity through the photovoltaic effect."
5. Climate Change and Solar Radiation: Explain the relationship between solar radiation and climate change. For instance, "Changes in solar radiation can influence the Earth's climate, as variations in the Sun's energy output can impact temperature patterns and weather systems."
6. Health Effects: Discuss the effects of solar radiation on human health, emphasizing the importance of protection.
For example, "Excessive exposure to solar radiation, particularly UV radiation, can lead to sunburn, premature aging, and an increased risk of skin cancer."
7. Measurement Units: Include the appropriate units of measurement when discussing solar radiation. For instance, "Solar radiation is commonly measured in watts per square meter (W/m) or joules per square meter (J/m)."
8. Geographic Factors: Consider the influence of geographic factors on solar radiation levels.
For example, "Solar radiation levels vary depending on factors such as latitude, altitude, and atmospheric conditions, with higher levels typically observed near the equator."
9. Solar Radiation and Energy Efficiency: Highlight the importance of understanding solar radiation for optimizing energy efficiency in buildings. For instance, "Architects and engineers consider solar radiation when designing buildings to maximize natural lighting and minimize the need for artificial lighting."
10. Future Prospects: Discuss the potential advancements and future prospects related to solar radiation.
For example, "Ongoing research aims to improve solar radiation forecasting models, enhance solar energy storage technologies, and develop more efficient solar panels." By incorporating these tips, you can effectively utilize the term "solar radiation" in your sentences, providing a comprehensive understanding of its significance and applications.
In the remaining portion of this article, additional example sentences are presented to demonstrate the usage of the term "Solar Radiation" within sentences.
"Solar Radiation"
(1) Solar radiation can be reflected
(2) Solar radiation is strongest at the equator.
(3) The airglow was a result of solar radiation.
(4) Solar radiation is weaker during cloudy days.
(5) The solar radiation can be harmful to humans.
(6) Solar radiation is weaker at higher latitudes.
(7) The aerosphere is influenced by solar radiation
(8) Solar radiation is a renewable source of energy.
(9) Solar radiation is the energy emitted by the sun.
(10) Isarithms can be used to analyze solar radiation.
Sentence For "Solar Radiation"
(11) The Earth receives solar radiation during the day.
(12) Actinometries are used to measure solar radiation.
(13) Solar radiation can cause sunburns and skin damage.
(14) The solar radiation can be harmful to human health.
(15) Solar radiation is a key driver of weather patterns.
(16) Solar radiation is absorbed by the Earth's atmosphere
(17) Solar radiation is measured in watts per square meter.
(18) Solar radiation is strongest during the summer months.
(19) Solar radiation is essential for the growth of plants.
(20) Solar radiation can be harmful to astronauts in space.
"Solar Radiation" In A Sentence
(21) Solar radiation is used in solar cookers to heat food.
(22) The satellite was able to deflect the solar radiation.
(23) Solar radiation is used in solar water heating systems.
(24) Solar radiation is a form of electromagnetic radiation.
(25) Insolation is the process of receiving solar radiation.
(26) The inversion layer caused a decrease in solar radiation
(27) The atmosphere protects us from harmful solar radiation.
(28) The planetaries have different levels of solar radiation
(29) The substorm produced intense bursts of solar radiation.
(30) Earth's magnetic field protects us from solar radiation.
"Solar Radiation" Sentence
(31) Solar radiation is essential for photosynthesis to occur.
(32) Solar radiation can be harnessed to generate electricity.
(33) Solar radiation is responsible for the greenhouse effect.
(34) The minima of the solar radiation occur during the night.
(35) The spectral power of the solar radiation was determined.
(36) The satellite will measure solar radiation nearperihelion.
(37) The intensity of solar radiation varies throughout the day.
(38) Solar radiation is responsible for the formation of clouds.
(39) The ionospheric layers can be influenced by solar radiation.
(40) The planet's magnetic field protects it from solar radiation.
"Solar Radiation" Sentence Examples
(41) Aridisols are often found in areas with high solar radiation.
(42) The photosphere is the layer where solar radiation is emitted.
(43) The regolith is constantly being bombarded by solar radiation.
(44) The ozone layer helps protect us from harmful solar radiation.
(45) Scientists use heliograms to track changes in solar radiation.
(46) The actinometry device measures the amount of solar radiation.
(47) The actinometer provided accurate readings of solar radiation.
(48) The magnetosphere protects Earth from harmful solar radiation.
(49) The ionosphere protects the Earth from harmful solar radiation.
(50) Solar radiation is responsible for heating the Earth's surface.
Sentence With "Solar Radiation"
(51) Solar radiation is used in solar panels to produce electricity.
(52) Bumi's magnetic field protects it from harmful solar radiation.
(53) The magnetic storm resulted in increased solar radiation levels.
(54) The hydrological cycle is driven by solar radiation and gravity.
(55) The heliosphere protects the Earth from harmful solar radiation.
(56) Earth's magnetic field protects us from harmful solar radiation.
(57) The ultraviolet spectrum is used in the study of solar radiation.
(58) Solar radiation is used in solar-powered calculators and watches.
(59) The ozone layer acts as a shield against harmful solar radiation.
(60) The planet experiences increased solar radiation near perihelion.
Use "Solar Radiation" In A Sentence
(61) The surface of mercuries is heavily bombarded by solar radiation.
(62) The solar cycle is responsible for variations in solar radiation.
(63) The daily variation in solar radiation affects energy generation.
(64) The lunar day is a period of intense solar radiation on the Moon.
(65) Aeronomic experiments investigate the effects of solar radiation.
(66) The spacesuits had reflective surfaces to deflect solar radiation.
(67) Scientists rely on the spectroheliograph to study solar radiation.
(68) The Earth's geomagnetism protects us from harmful solar radiation.
(69) The orbiters studied the effects of solar radiation on spacecraft.
(70) Aeronomers study the effects of solar radiation on the atmosphere.
Sentence Using "Solar Radiation"
(71) He relied on the actinometer to monitor changes in solar radiation.
(72) The interannual variability of solar radiation affects crop yields.
(73) The actinometric method is commonly used to measure solar radiation.
(74) The vidicon array provided accurate measurements of solar radiation.
(75) The flux distribution of solar radiation was measured using sensors.
(76) The erath's magnetic field protects us from harmful solar radiation.
(77) The earth's magnetic field protects us from harmful solar radiation.
(78) Earths have a magnetic field that protects them from solar radiation.
(79) The helio- prefix is often used in discussions about solar radiation.
(80) The planetal magnetic field protects it from harmful solar radiation.
Sentences With "Solar Radiation"
(81) The isoline indicates regions with similar levels of solar radiation.
(82) The pyrheliometer is a device used to measure direct solar radiation.
(83) The planet's magnetic field protects it from harmful solar radiation.
(84) The tellurian magnetic field protects us from harmful solar radiation.
(85) The backscatterings of solar radiation influenced the Earth's climate.
(86) Radiometers are commonly used in meteorology to study solar radiation.
(87) The planeto's magnetic field protects it from harmful solar radiation.
(88) Aeronomists research the effects of solar radiation on the atmosphere.
(89) The radiometer is used in weather stations to measure solar radiation.
(90) Solar radiation is a valuable resource for renewable energy production.
Sentence Of "Solar Radiation"
(91) The planate's magnetic field protected it from harmful solar radiation.
(92) Bumi has a strong magnetic field that protects it from solar radiation.
(93) Yardangs can be found in regions with a high amount of solar radiation.
(94) The accuracy of actinometers is crucial in determining solar radiation.
(95) Earth's magnetic field protects the planet from harmful solar radiation.
(96) The decadal variations in solar radiation impact Earth's energy balance.
(97) The atmometer's readings are affected by wind speed and solar radiation.
(98) The isopleth lines on the map represented the levels of solar radiation.
(99) The spectroradiometer provides accurate measurements of solar radiation.
(100) The solar constant is a fundamental quantity in solar radiation studies.
"Solar Radiation" Sentences
(101) Paleoclimate studies have shown the impact of solar radiation on climate.
(102) The jovian magnetosphere protects its moons from harmful solar radiation.
(103) The ceilometer is used to assess the impact of clouds on solar radiation.
(104) Actinometers are commonly used in meteorology to measure solar radiation.
(105) The magnetic field of the Earth protects us from harmful solar radiation.
(106) The aeronomist analyzed the effects of solar radiation on the atmosphere.
(107) The areal density of the solar radiation was measured using a pyranometer.
(108) The radiometer is commonly used in meteorology to measure solar radiation.
(109) The actinometries were used to measure the solar radiation in urban areas.
(110) The actinometries were used to measure the solar radiation in rural areas.
"Solar Radiation" Use In Sentence
(111) The sols of the lunar surface are constantly bombarded by solar radiation.
(112) Solar radiation is a major source of energy for the Earth's climate system.
(113) Ryugu's surface is constantly bombarded by solar radiation and cosmic rays.
(114) Actinometry is used to study the impact of solar radiation on plant growth.
(115) Anticyclones can lead to reduced cloud cover and increased solar radiation.
(116) The contour map depicted the distribution of solar radiation in the region.
(117) The isohel line separates regions with different levels of solar radiation.
(118) The field intensity of the solar radiation was measured using a solarimeter.
(119) The magnetospheric region of Earth protects us from harmful solar radiation.
(120) The actinometry readings indicated a high level of solar radiation exposure.
Sentence On "Solar Radiation"
(121) The actinometries recorded the highest solar radiation levels during midday.
(122) Scientists use nephoscopes to study the impact of clouds on solar radiation.
(123) The thermosphere is where the solar radiation is absorbed by the atmosphere.
(124) The radiometer is often used in weather stations to measure solar radiation.
(125) The actinometries were used to measure the solar radiation in polar regions.
(126) The brightness of faculae can be used to measure changes in solar radiation.
(127) Researchers rely on the array sunspots to monitor changes in solar radiation.
(128) The pyrheliometer is a scientific instrument used to measure solar radiation.
(129) Anticyclones can result in reduced cloud cover and increased solar radiation.
(130) Radiometers are commonly used in weather stations to measure solar radiation.
"Solar Radiation" Example
(131) The Earth's magnetic field of force protects us from harmful solar radiation.
(132) The planet's aphelian point is where it is least affected by solar radiation.
(133) The magnetic field around the Earth protects us from harmful solar radiation.
(134) The Earth has a magnetic field that protects us from harmful solar radiation.
(135) The actinometries were used to measure the solar radiation in desert regions.
(136) Insolation is the amount of solar radiation that reaches the Earth's surface.
(137) The daily variation in solar radiation can affect renewable energy generation.
(138) The revolutions of the Earth's magnetic field protect us from solar radiation.
(139) The planetary magnetic field protects the planet from harmful solar radiation.
(140) The isolines on the solar radiation map show areas of equal sunlight exposure.
"Solar Radiation" In Sentence
(141) Xerothermic climates are often associated with high levels of solar radiation.
(142) The energy change in the solar water heater heats water using solar radiation.
(143) The solar radiation can be harmful to human health if exposure is not limited.
(144) The actinometries were used to measure the solar radiation in coastal regions.
(145) Actinometries can be used to study the effects of solar radiation on wildlife.
(146) Insolation is the process by which solar radiation reaches the Earth's surface.
(147) The spherical Earth has a magnetic field that protects it from solar radiation.
(148) Continuous monitoring of solar activity helps in understanding solar radiation.
(149) The intense sunlight caused the water to vaporize owing to the solar radiation.
(150) It is assumed that the Earth's magnetic field protects us from solar radiation.
"Solar Radiation" Sentences In English
(151) The attenuations in the solar radiation caused a decrease in energy production.
(152) Actinometries can be used to study the effects of solar radiation on materials.
(153) The actinometries were used to measure the solar radiation in tropical regions.
(154) Solar radiation is the primary source of energy for the Earth's weather systems.
(155) Actinometers are calibrated to provide accurate measurements of solar radiation.
(156) The absorption of solar radiation by the ozone layer can warm up the atmosphere.
(157) The actinometries were used to measure the solar radiation in different seasons.
(158) The radiation emitted by the sun can be measured using a solar radiation sensor.
(159) The actinometry readings showed a decrease in solar radiation during the eclipse.
(160) Actinometry is used to study the impact of solar radiation on aquatic ecosystems.
Make Sentence With "Solar Radiation"
(161) He used the actinometer to compare solar radiation levels in different locations.
(162) Actinometries are calibrated instruments that accurately measure solar radiation.
(163) Actinometries can be used to study the effects of solar radiation on marine life.
(164) Actinometries can be used to study the effects of solar radiation on air quality.
(165) Geoengineering proposals range from carbon capture to solar radiation management.
(166) The magnetic field of the Earth is what protects us from harmful solar radiation.
(167) The thermosphere is where the atmosphere becomes more affected by solar radiation.
(168) The terrestrial planet has a magnetic field that protects it from solar radiation.
(169) Scientists use zenith angle measurements to study the behavior of solar radiation.
(170) The pyrheliometer's readings indicate a peak in solar radiation during noon hours.
Sentences Using "Solar Radiation"
(171) The actinometry readings indicated a high level of solar radiation at the equator.
(172) Researchers used actinometries to study the impact of aerosols on solar radiation.
(173) The spectral power of the solar radiation was measured to determine its intensity.
(174) Indisputably, the Earth's magnetic field protects us from harmful solar radiation.
(175) Actinometries can be used to study the effects of solar radiation on plant growth.
(176) Actinometries can be used to study the effects of solar radiation on human health.
(177) The actinometries were used to measure the solar radiation in mountainous regions.
(178) The ionized particles in the Earth's magnetosphere protect us from solar radiation.
(179) The perihelion of a planet can affect the intensity of solar radiation it receives.
(180) The pyrheliometer's readings show a decrease in solar radiation during cloudy days.
Sentence From "Solar Radiation"
(181) The actinometries conducted in the study provided accurate data on solar radiation.
(182) Actinometries are commonly used in meteorology to study the solar radiation budget.
(183) The spatio-temporal patterns of solar radiation impact renewable energy generation.
(184) Actinism is a principle that is important in the field of solar radiation research.
(185) The magnetic field strength of a planet can protect it from harmful solar radiation.
(186) The pyrheliometer's accuracy is crucial for obtaining reliable solar radiation data.
(187) The pyrheliometer's design allows for precise measurement of direct solar radiation.
(188) Actinometry is essential in assessing the impact of solar radiation on human health.
(189) The pericentre of the comet's orbit is where it is most affected by solar radiation.
(190) The isohel provides insights into the solar radiation received by different regions.
(191) The planet Earth has a magnetic field that protects us from harmful solar radiation.
(192) Airglow is caused by the interaction of solar radiation with the Earth's atmosphere.
(193) The field intensity of the solar radiation was responsible for powering solar panels.
(194) The actinometries provided data on the solar radiation levels at different altitudes.
(195) Researchers used actinometries to study the impact of cloud cover on solar radiation.
(196) Actinometers are commonly used in weather stations to measure solar radiation levels.
(197) The radiation belt is a natural barrier that protects the Earth from solar radiation.
(198) A true statement is that the Earth's magnetic field protects us from solar radiation.
(199) In the nature of things, the earth's magnetic field protects us from solar radiation.
(200) Aeronomies can help us better understand the effects of solar radiation on the Earth.
(201) The actinometric analysis revealed a seasonal variation in solar radiation intensity.
(202) The magnetic axis of a magnetosphere protects the Earth from harmful solar radiation.
(203) The magnetic field around the Earth is what protects us from harmful solar radiation.
(204) Solar radiation can be harmful to human health if exposure is prolonged or excessive.
(205) The pyrheliometer's readings indicate a significant increase in solar radiation today.
(206) The actinometer's precision allowed for detailed analysis of solar radiation patterns.
(207) The MRO's data has allowed scientists to study the effects of solar radiation on Mars.
(208) The magnetic field of force around the Earth protects it from harmful solar radiation.
(209) The isohel model is constantly updated to reflect changes in solar radiation patterns.
(210) The pyrheliometer measures the intensity of solar radiation in watts per square meter.
(211) Airglows are caused by the interaction of solar radiation with the Earth's atmosphere.
(212) Scientists use the solar constant to study the variations in solar radiation over time.
(213) The exosphere is where the Earth's atmosphere protects us from harmful solar radiation.
(214) A radiation-blocking device is used to protect astronauts from harmful solar radiation.
(215) Palaeoclimates reveal the influence of solar radiation and greenhouse gases on climate.
(216) The actinometer's measurements were used to create a solar radiation map of the region.
(217) The actinometries recorded the highest solar radiation levels during the summer months.
(218) The study aimed to determine the relationship between nadir angles and solar radiation.
(219) Paleoclimatology investigates the influence of solar radiation on past climate changes.
(220) The isohel data reveals the intensity of solar radiation in various parts of the world.
Short & Simple Example Sentence For "Solar Radiation" | "Solar Radiation" Sentence
(221) The actinometries were placed in different locations to compare solar radiation levels.
(222) The study of aerospheres is important for understanding the effects of solar radiation.
(223) The pyrheliometer's readings suggest a decrease in solar radiation due to air pollution.
(224) The pyrheliometer's readings suggest a decrease in solar radiation during winter months.
(225) The divine round of the Earth's magnetic field protects us from harmful solar radiation.
(226) It is provable that the Earth's magnetic field protects us from harmful solar radiation.
(227) Many aeronomers specialize in studying the effects of solar radiation on the atmosphere.
(228) Photometers are commonly used in the field of meteorology for measuring solar radiation.
(229) Literally speaking, the Earth's magnetic field protects us from harmful solar radiation.
(230) The isohel contour lines on the map represent areas with similar solar radiation levels.
(231) The actinometer measures the amount of solar radiation that reaches the Earth's surface.
(232) Actinometric measurements are used to calibrate instruments that monitor solar radiation.
(233) The actinometric method is widely accepted as the standard for measuring solar radiation.
(234) The magnetic pull of the Earth's magnetic field protects us from harmful solar radiation.
(235) The actinometries measured the solar radiation levels in real-time during the experiment.
(236) The auroras are a result of the Earth's magnetic field protecting us from solar radiation.
(237) The pyrheliometer's readings indicate a higher solar radiation intensity near the equator.
(238) The actinometer's data provided valuable insights into the variability of solar radiation.
(239) Researchers used actinometries to compare solar radiation levels in urban and rural areas.
(240) Radiometers are used in the study of climate change to monitor changes in solar radiation.
How Do You Write A Good Sentence With "Solar Radiation"?
(241) It is apodeictic that the Earth's magnetic field protects us from harmful solar radiation.
(242) The major planets in our solar system have different levels of solar radiation absorption.
(243) The actinometric analysis revealed a correlation between solar radiation and plant growth.
(244) The irradiances array stores the measured values of solar radiation at different locations.
(245) She used the actinometer to study the relationship between solar radiation and skin cancer.
(246) The geomagnetic field is responsible for protecting the Earth from harmful solar radiation.
(247) Actinometries are used to measure the amount of solar radiation absorbed by the atmosphere.
(248) The development of digital actinometers has made solar radiation measurements more precise.
(249) Aeronomy plays a crucial role in understanding the effects of solar radiation on our planet.
(250) The actinometer's readings indicated a decrease in solar radiation during the winter season.
(251) Accurate measurements of zenith angles are necessary for calculating solar radiation levels.
(252) The Venusian magnetic field is not strong enough to protect the planet from solar radiation.
(253) Researchers relied on actinometries to study the impact of air pollution on solar radiation.
(254) The behavior of trochospheres can be influenced by external factors such as solar radiation.
(255) Actinism is a crucial factor in the process of solar radiation reaching the Earth's surface.
(256) The spatio-temporal patterns of solar radiation are important for renewable energy planning.
(257) The Earth's magnetic field provides a life-sustaining shield against harmful solar radiation.
(258) The pyrheliometer's sensitivity allows for precise measurement of solar radiation variations.
(259) The pyrheliometer's readings indicate a higher solar radiation intensity at higher altitudes.
(260) Actinometric data is crucial for understanding the impact of solar radiation on plant growth.
English Sentences With Audio Using The Word "Solar Radiation".
(261) The actinometries provided valuable data on the solar radiation levels in urban environments.
(262) The periastron passage of a comet can lead to the formation of a tail due to solar radiation.
(263) Actinometers are commonly employed in climate research to analyze changes in solar radiation.
(264) Actinometers are essential for understanding the impact of solar radiation on climate change.
(265) In the course of nature, the Earth's magnetic field protects us from harmful solar radiation.
(266) In the nature of things, the earth's magnetic field protects us from harmful solar radiation.
(267) The solar constant is an average value that takes into account variations in solar radiation.
(268) A true statement is that the Earth's magnetic field protects us from harmful solar radiation.
(269) The increased solar radiation caused by a decrease in cloud cover can warm up the atmosphere.
(270) The actinometries were used to measure the solar radiation in different regions of the world.
(271) Radiometry is used in the analysis of solar radiation and its impact on solar energy systems.
(272) The field intensity of the solar radiation was responsible for heating up the Earth's surface.
(273) Actinometric measurements are used to study the effects of solar radiation on the ozone layer.
(274) Bioclimatic architecture takes into account factors such as solar radiation and wind patterns.
(275) Researchers used actinometries to study the impact of deforestation on solar radiation levels.
(276) The temperature of an air mass can be influenced by the amount of solar radiation it receives.
(277) The angle of the sun's rays changes latitudinally, affecting the intensity of solar radiation.
(278) The isopleth diagram of solar radiation showed the intensity of sunlight in different regions.
(279) The magnetic field of the Earth can refract through to protect us from harmful solar radiation.
(280) Actinometric data is crucial for understanding the impact of solar radiation on climate change.
How To Use "Solar Radiation" With Example Sentences.
(281) The actinometries conducted at different locations showed variations in solar radiation levels.
(282) The magnetic attraction of the Earth's magnetic field protects us from harmful solar radiation.
(283) Actinometers are valuable instruments for studying the impact of solar radiation on ecosystems.
(284) The concept of isohels helps college students analyze and predict solar radiation distribution.
(285) Actinometries are used to measure the amount of solar radiation absorbed by different surfaces.
(286) The albedo of the atmosphere affects the amount of solar radiation reaching the Earth's surface.
(287) The pyrheliometer's measurements are used to validate satellite-based solar radiation estimates.
(288) The astronaut's space helmet had a reflective coating to shield against harmful solar radiation.
(289) One scientific fact is that the Earth's magnetic field protects us from harmful solar radiation.
(290) The fact that the earth's magnetic field protects us from solar radiation is apodictically true.
(291) The magnetic field of the Earth protected us from harmful solar radiation, making life possible.
(292) The pyrheliometer's data will help us understand the impact of solar radiation on climate change.
(293) Actinometric studies have revealed the correlation between solar radiation and skin cancer rates.
(294) The actinometries helped scientists understand the effects of ozone depletion on solar radiation.
(295) The weather satellite's sensors measure solar radiation levels and its impact on Earth's climate.
(296) Actinometries are used to measure the amount of solar radiation reflected by the Earth's surface.
(297) The actinometer is a valuable tool for studying the effects of climate change on solar radiation.
(298) The exosphere is where the Earth's atmosphere becomes increasingly ionized due to solar radiation.
(299) The northern lights are a result of the Earth's magnetic field protecting us from solar radiation.
(300) The pyrheliometer's data will be used to analyze the solar radiation patterns throughout the year.
(301) The pyrheliometer's accuracy is crucial for determining the impact of solar radiation on wildlife.
(302) The actinometries provided accurate measurements of solar radiation for the duration of the study.
(303) The transmissivity of the solar radiation through the Earth's atmosphere affects climate patterns.
(304) The actinometries were used to measure the amount of solar radiation reaching the Earth's surface.
(305) The pyrheliometer's measurements help scientists study the effects of solar radiation on materials.
(306) Radiometry is used in the study of the Earth's atmosphere and its interaction with solar radiation.
(307) The spectroradiometer is used in the analysis of solar radiation for renewable energy applications.
(308) Actinometry plays a crucial role in understanding the effects of solar radiation on the environment.
(309) Research ballooning has been used to study the effects of solar radiation on the Earth's atmosphere.
(310) The albedo of the atmosphere affects the amount of solar radiation that reaches the Earth's surface.
(311) The study of glaciation can help us understand the impact of solar radiation on the Earth's climate.
(312) The pyrheliometer's measurements help scientists study the impact of solar radiation on plant growth.
(313) Researchers rely on actinometric data to study the effects of solar radiation on the Earth's climate.
(314) The insolation data is used by scientists to study the effects of solar radiation on Earth's climate.
(315) Actinometries play a crucial role in understanding the effects of solar radiation on the environment.
(316) The study of actinism is essential for understanding the impact of solar radiation on climate change.
(317) The increase in solar radiation caused by a decrease in volcanic activity can warm up the atmosphere.
(318) The intensity of solar radiation can fluctuate cyclically due to changes in the sun's magnetic field.
(319) The pyrheliometer's accuracy is crucial for determining the impact of solar radiation on human health.
(320) Some proposed methods of geoengineering include solar radiation management and carbon dioxide removal.
(321) Research ballooning allows scientists to study the effects of solar radiation on the upper atmosphere.
(322) Actinometers are commonly employed in solar radiation research to analyze its effects on human health.
(323) Actinometers are valuable instruments for studying the impact of solar radiation on marine ecosystems.
(324) The spectroradiometer allows us to quantify the amount of solar radiation reaching the Earth's surface.
(325) The pyrheliometer's sensitivity allows for accurate measurement of solar radiation even in urban areas.
(326) The actinometric data collected over several years showed a gradual increase in solar radiation levels.
(327) The actinometric measurements showed a decrease in solar radiation during periods of heavy cloud cover.
(328) The measured zenith angles were used to calculate the solar radiation received at the observation site.
(329) The spacecraft will study the effects of solar radiation on the planet during its nearperihelion phase.
(330) The fact that the Earth's magnetic field protects us from harmful solar radiation is a scientific fact.
(331) The exosphere is where the temperature increases with altitude due to the absorption of solar radiation.
(332) Actinometric studies have shown that solar radiation varies depending on the time of day and the season.
(333) The solar constant is used to estimate the amount of solar radiation absorbed by the Earth's atmosphere.
(334) The increase in solar radiation caused by a decrease in atmospheric aerosols can warm up the atmosphere.
(335) Aeronomy plays a crucial role in understanding the effects of solar radiation on the Earth's atmosphere.
(336) The pyrheliometer's sensitivity allows for accurate measurement of even small changes in solar radiation.
(337) Actinometers are crucial for understanding the impact of solar radiation on plant growth and development.
(338) Earth science investigates the Earth's magnetic field and its role in protecting us from solar radiation.
(339) Although the magnetic field of the Earth is weakening, it still protects us from harmful solar radiation.
(340) The pyrheliometer's data will contribute to the understanding of solar radiation's role in climate change.
(341) The actinometric measurements revealed a significant increase in solar radiation during the summer months.
(342) Actinometric data is crucial for understanding the impact of solar radiation on agricultural productivity.
(343) Aeronomies plays a crucial role in understanding the effects of solar radiation on the Earth's atmosphere.
(344) Actinometers are commonly used in solar radiation monitoring networks to collect data for climate studies.
(345) Actinometers are valuable instruments for studying the impact of solar radiation on human-made structures.
(346) The solar radiation that reaches Earth is responsible for heating the planet and driving weather patterns.
(347) The absorptivity of the atmosphere affects the amount of solar radiation that reaches the Earth's surface.
(348) Analemma diagrams can be used to explain the concept of the sun's zenith and its effect on solar radiation.
(349) The actinometries helped scientists understand the relationship between solar radiation and climate change.
(350) The solar constant is used to estimate the amount of solar radiation reaching different parts of the Earth.
(351) Should the geostrophic balance be disturbed by solar radiation, it may cause changes in the global climate.
(352) The actinometric method allows for accurate comparisons of solar radiation levels across different locations.
(353) Actinometries are crucial for understanding the relationship between solar radiation and vitamin D synthesis.
(354) In weather stations, photodiodes are used to measure the intensity of sunlight and calculate solar radiation.
(355) The equators are where the Earth's magnetic field is weakest, allowing for increased solar radiation exposure.
(356) The solar constant is a measure of the amount of solar radiation received at the outer atmosphere of the Earth.
(357) The pyrheliometer's measurements help scientists study the effects of solar radiation on atmospheric chemistry.
(358) The actinometric data collected over a decade provided valuable insights into long-term solar radiation trends.
(359) The scientific expedition used a specialized aircraft to blast into the stratosphere and study solar radiation.
(360) The amount of solar radiation reaching the Earth depends on factors like cloud cover and atmospheric conditions.
(361) Actinometers are frequently employed in solar radiation modeling to predict its distribution on Earth's surface.
(362) The spacecraft's windows were made of a transparent shielding material to protect the crew from solar radiation.
(363) The meteorologist measured nadir angles to calculate the amount of solar radiation reaching the Earth's surface.
(364) The magnetotail is a key component of the Earth's magnetosphere, which protects us from harmful solar radiation.
(365) The process of evapotranspiration is affected by the amount of solar radiation that reaches the Earth's surface.
(366) Actinometers are frequently used in environmental studies to assess the impact of solar radiation on air quality.
(367) The aeronomist collaborated with other scientists to investigate the effects of solar radiation on the atmosphere.
(368) Actinism is a term that is often used in discussions about the effects of solar radiation on the Earth's atmosphere.
(369) Applying window film can help insulate against the heat by reducing the amount of solar radiation entering your home.
(370) The calculation of evapotranspiration is based on a number of factors, including solar radiation and air temperature.
(371) Insolation can be affected by atmospheric conditions such as cloud cover, which can reflect or absorb solar radiation.
(372) The solar constant is an essential parameter in the study of solar radiation and its effects on the Earth's atmosphere.
(373) Isohels help college students understand the concept of solar noon and its significance in solar radiation distribution.
(374) The equators are where the Earth's atmosphere is thickest, providing a protective shield against harmful solar radiation.
(375) By studying isohels, college students can gain insights into the variations in solar radiation across different latitudes.
(376) The Earth's magnetic field has been protecting the planet for billions of years, shielding it from harmful solar radiation.
(377) The equators, being the regions with the highest solar radiation, are prone to intense thunderstorms and tropical cyclones.
(378) Evapotranspiration is influenced by a variety of factors, including temperature, humidity, wind speed, and solar radiation.
(379) As the geophysicist pointed out, the earth's magnetic field plays a crucial role in protecting us from harmful solar radiation.
(380) Insolation, which is the amount of solar radiation received by a particular area, can have a significant impact on the local climate.
(381) The iron core of the Earth is believed to be responsible for its strong magnetic field, which protects us from harmful solar radiation.
(382) The exosphere is where the Earth's atmosphere becomes ionized by solar radiation, and it is where radio waves can travel long distances.
(383) The albedo of the Earth's surface varies depending on the amount of snow cover, but it also affects the amount of solar radiation absorbed.
(384) The Earth's climate has been influenced by various factors over billions of years, including volcanic activity and changes in solar radiation.
(385) As the equators receive the most direct sunlight, they are also the regions where solar radiation can cause the highest levels of skin damage.
(386) Insolation can also have an impact on human health, as excessive exposure to solar radiation can lead to skin damage and other health problems.
(387) The sun provides us with light and warmth, which are essential for life, but excessive exposure to solar radiation can be harmful to our health.
(388) Langley's contributions to the field of astronomy are widely recognized, and his work on solar radiation paved the way for modern solar energy technology.
(389) The atmospheres of Earth and Jupiter are vastly different, but they both have strong magnetic fields that protect their surfaces from harmful solar radiation.
(390) The albedo of the moon is much lower than that of the Earth, which means that it absorbs more solar radiation and experiences greater temperature fluctuations.
(391) Airglow is caused by the interaction of solar radiation with the upper atmosphere, and it can be used to study the dynamics of the ionosphere and the magnetosphere.
(392) Insolation can also be affected by factors such as air pollution and volcanic activity, which can alter the amount of solar radiation that reaches the Earth's surface.
(393) Although insolation is highest at the equator, the amount of solar radiation received by a specific location can vary depending on factors such as latitude and altitude.
(394) Insolation is affected by atmospheric conditions such as clouds, air pollution, and greenhouse gases, which can alter the amount of solar radiation that reaches the Earth's surface.
(395) While insolation is generally highest in areas near the equator, there are some regions at higher latitudes that receive significant amounts of solar radiation due to atmospheric conditions.
Learning English Faster Through Complete Sentences With "Solar Radiation"
Sentences are everywhere.
Without sentences, language doesn’t really work.
When you first started learning English, you may have memorized words such as English meaning of the word "Solar Radiation"; But now that you have a better understanding of the language, there’s a better way for you to learn meaning of "Solar Radiation" through sentence examples.
True, there are still words that you don’t know. But if you learn whole sentences with "Solar Radiation", instead of the word "Solar Radiation" by itself, you can learn a lot faster!
Focus Your English Learning On Sentences With "Solar Radiation".
Why Is Focusing on Sentences Important?
Sentences are more than just strings of words. They’re thoughts, ideas and stories. Just like letters build words, words build sentences. Sentences build language, and give it personality.
Again, without sentences, there’s no real communication. If you were only reading words right now, you wouldn’t be able to understand what I’m saying to you at all.
- The Word "Solar Radiation" in Example Sentences.
- "Solar Radiation" in a sentence.
- How to use "Solar Radiation" in a sentence.
- 10 examples of sentences "Solar Radiation".
- 20 examples of simple sentences "Solar Radiation".
All the parts of speech in English are used to make sentences. All sentences include two parts: the subject and the verb (this is also known as the predicate). The subject is the person or thing that does something or that is described in the sentence. The verb is the action the person or thing takes or the description of the person or thing. If a sentence doesn’t have a subject and a verb, it is not a complete sentence (e.g., In the sentence “Went to bed,” we don’t know who went to bed).
Four Types Of Sentence Structure.
Simple Sentences With "Solar Radiation"
A simple sentence with "Solar Radiation"contains a subject and a verb, and it may also have an object and modifiers. However, it contains only one independent clause.
Compound Sentences With "Solar Radiation"
A compound sentence with "Solar Radiation" contains at least two independent clauses. These two independent clauses can be combined with a comma and a coordinating conjunction or with a semicolon.
Complex Sentences With "Solar Radiation"
A complex sentence with "Solar Radiation" contains at least one independent clause and at least one dependent clause. Dependent clauses can refer to the subject (who, which) the sequence/time (since, while), or the causal elements (because, if) of the independent clause.
Compound-Complex Sentences With "Solar Radiation"
Sentence types can also be combined. A compound-complex sentence with "Solar Radiation" contains at least two independent clauses and at least one dependent clause.
