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The closer an object gets to the center of the earth, the greater the pull of gravity on that object.
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∙ 11y ago
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Gravity is greater at the what?
Gravity increases from about 9.780 m/s2 at the Equator to about 9.832 m/s2 at the poles. This means an object will weigh about 0.5% more at the poles than at the Equator.
Will a pendulum swing faster at the equator than at the poles?
Well, I think it will swing faster in the equator than at the poles because T=sq. root l/q says that when the gravity increases, the time decreases and when the gravity decreases time increases. Thus it will swing slower at the poles than in the equator
Why will you weigh more at the north pole than the equator?
An object weighs more at the north pole than at the equator for two reasons: Distance from the center of the earth, and earths rotation. The earth is not perfectly spherical, it's an oblate, wider at the equator than at the poles because it's spinning. As such you are slightly closer to the center of the earth when standing at the poles, than at the equator. Being slightly closer means that the gravity is slightly stronger, making you weigh more. Also at the equator you are spinning around the earths' axis with the rest of the planet, and this acts to reduce the measured weight of an object.
Which best explains why the weight of an object is less at the equator than at the poles?
The earth is not a perfect sphere. The spin of the earth causes it to buldge out at the equator, which means the equator is further from the center of the earth then the poles are. The further an object is from the center of mass of another object, the less effect the gravity of those objects will have on each other. So at the equator, an object is being effected less by the gravity of the earth then it is at the poles.
Why do charged particles from outer space like cosmic rays strike Earth more frequently at the poles than at the equator?
Charged particles are attracted to magnetic fields, and therefore are attracted to the magnetic poles of the Earth.
Does gravity have a stronger pull at the eatrh poles then it does on the equator?
no, but the electromagnetic field of the earth does.
Why gravity is not same all over the earth?
Gravity on Earth is slightly stronger at the poles than at the equator, because the diameter of the Earth at the equator is larger than the diameter through the poles. So when you stand at a pole, you're closer to the center of the Earth, and that's the distance that determines the force of gravity between you and the Earth.
Where is acceleration due to gravity greater?
It is greater at poles than at equator.
Gravity is greater at the what?
Gravity increases from about 9.780 m/s2 at the Equator to about 9.832 m/s2 at the poles. This means an object will weigh about 0.5% more at the poles than at the Equator.
Why gravity is stronger at poles than along the equator.do you know why?
Since the earth is spinning ... an object on the equator is moving roughly 1,000 miles per hour ... the earth is somewhat bulged at the equator. Its diameter at the equator is a little larger than the distance between the north and south poles. For that reason, when you stand at the pole, you're a bit closer to the center of the earth than when you stand on the equator. The farther you are from the center of the earth, the lower the force of gravity between you and the earth. So the force is less at the equator and more at the poles.
Will a pendulum swing faster at the equator than at the poles?
Well, I think it will swing faster in the equator than at the poles because T=sq. root l/q says that when the gravity increases, the time decreases and when the gravity decreases time increases. Thus it will swing slower at the poles than in the equator
The force that dictates that objects weight more at the equator than at the poles is?
gravity
Why will you weigh more at the north pole than the equator?
An object weighs more at the north pole than at the equator for two reasons: Distance from the center of the earth, and earths rotation. The earth is not perfectly spherical, it's an oblate, wider at the equator than at the poles because it's spinning. As such you are slightly closer to the center of the earth when standing at the poles, than at the equator. Being slightly closer means that the gravity is slightly stronger, making you weigh more. Also at the equator you are spinning around the earths' axis with the rest of the planet, and this acts to reduce the measured weight of an object.
Why would an object way less at the equator than at the poles?
Not for sure but it seems like there would be more gravity at the equator than at the poles. The earth rotates and creates a centrifugal acceleration at the equator the counters the force of gravity. acceleration due to gravity =GM/R2 acceleration due to rotation =V2/R So gravity at the equator is GM/R2 - V2/R
Which best explains why the weight of an object is less at the equator than at the poles?
The earth is not a perfect sphere. The spin of the earth causes it to buldge out at the equator, which means the equator is further from the center of the earth then the poles are. The further an object is from the center of mass of another object, the less effect the gravity of those objects will have on each other. So at the equator, an object is being effected less by the gravity of the earth then it is at the poles.
What is the effect of latitude on acceleration due to gravity?
The equation for the force of gravity is F=-GMm/r2 at the equator the earth has more mass due to the gravity of the sun distroting the sherical shape of the earth. But this mean that the distance between the centre of the earth to the poles (r) is less and because r is squared the effect of distance has more of an impact than the mass so this means that gravity is stronger at the poles and weaker at the equator.....
What is Gravity Is greater than?
poles
