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Why is earths gravity stronger than an apples?
Gravity is affected by the mass of an object, The greater the mass, the greater the gravity. Apples have gravity, but because they have such a small mass the gravity is tiny, whereas Earth has a huge mass which in turn means that it has a huge and noticeable gravity.
What happens to the gravity on large and small planet?
Gravity depends largely on mass, the bigger the planet the greater the gravity should be
How much mass does an object have to have to create gravity?
Any object with mass has gravity, no matter how small. However, the strength of the gravitational force depends on the mass of the object - the more massive the object, the stronger the gravitational force it produces.
What is he specific gravity of diamonds?
This question is nonsensical. Gravity something that is not applied to small objects. The Earth has a Gravitational Field strength of about 10n/kg (newtons per kilogram) but to work out the gravity of a small object depends on the mass of the object and can't be applied to things like diamonds in general.
What is Specific gravity of Diamonds?
This question is nonsensical. Gravity something that is not applied to small objects. The Earth has a Gravitational Field strength of about 10n/kg (newtons per kilogram) but to work out the gravity of a small object depends on the mass of the object and can't be applied to things like diamonds in general.
What is the center of gravity for a spherical object?
The center of gravity for a spherical object is located at the exact center of the sphere. This point is equidistant from all points on the surface of the sphere, making it the point where the force of gravity can be considered to act on the object.
What is the gravity of an Emerald?
It doesn't matter what it is made of; gravity depends solely on the mass of the object. Emeralds are generally fairly small, so their gravity would be negligible compared to the Earth.
Is zero gravity the correct term?
No. An object that has any mass consequently exerts some gravity. However, with relatively small objects, the gravitational force is so small that it does not have any practical effect.
Is the force of earths gravity stronger or weaker depending on the height of the orbit?
Yes, gravity decreases as the square of distance, meaning a small change in distance has a magnified effect on the gravity exerted by an object. Detect languageAfrikaansAlbanianArabicArmenianAzerbaijaniBasqueBengaliBelarusianBulgarianCatalanChinese (Simp)Chinese (Trad)CroatianCzechDanishDutchEnglishEsperantoEstonianFilipinoFinnishFrenchGalicianGeorgianGermanGreekGujaratiHaitian CreoleHebrewHindiHungarianIcelandicIndonesianIrishItalianJapaneseKannadaKoreanLaoLatinLatvianLithuanianMacedonianMalayMalteseNorwegianPersianPolishPortugueseRomanianRussianSerbianSlovakSlovenianSpanishSwahiliSwedishTamilTeluguThaiTurkishUkrainianUrduVietnameseWelshYiddishAfrikaansAlbanianArabicArmenianAzerbaijaniBasqueBengaliBelarusianBulgarianCatalanChinese (Simp)Chinese (Trad)CroatianCzechDanishDutchEnglishEsperantoEstonianFilipinoFinnishFrenchGalicianGeorgianGermanGreekGujaratiHaitian CreoleHebrewHindiHungarianIcelandicIndonesianIrishItalianJapaneseKannadaKoreanLaoLatinLatvianLithuanianMacedonianMalayMalteseNorwegianPersianPolishPortugueseRomanianRussianSerbianSlovakSlovenianSpanishSwahiliSwedishTamilTeluguThaiTurkishUkrainianUrduVietnameseWelshYiddishOptions : History : Help : FeedbackText-to-speech function is limited to 100 characters
Force of gravity least at which place?
The force of gravity is least at the center of the Earth. This is because gravity is proportional to the distance between two objects, so at the center of the Earth, the gravitational pull from all directions cancels out, resulting in a net zero force.
Does gravity affect small objects?
Yes, gravity affects all objects regardless of their size. The force of gravity is proportional to an object's mass, so even small objects experience the gravitational pull of larger bodies like the Earth.
What is the minimum force to go against gravity?
The minimum force needed to go against gravity is equal to the force of gravity acting on the object, which is the object's weight. This force can be calculated using the formula F = m*g, where F is the force, m is the mass of the object, and g is the acceleration due to gravity (approximately 9.8 m/s^2 on Earth).
