Hey friend's ☺....
♻️Answer this question.....
✔If the value of acceleration , due to the gravity , of the planet is one - third
of the earth's then what will be its weight on the planet if it weight 512N
on Earth?
❌Do not give lazy ANSWER.
meenakshi997sa:
simply!!! weight=mg, so...as per question weight on earth= 512N hence, we get mass=512/9.8 { if we take g=9.8} so mass remains same all over universe . it is given acceleration due to gravity on planet =g/3 = 9.8/3 ,..... so weight = mg= (512×9.8)/9.8×3 = 170.66N
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Answered by
4
hey dear...
here is your answer...
++++++++++++++++++++++++++++++++++
acceleration due to gravity becomes twice of original.
formula for acceleration due to gravity is
G is a constant equal to 6.67 × 10-11 N-m2/kg2,
M is mass of planet which is also a constant
r is radius of planet which is also a constant
if mass and radius are half of original i.e M/2 and r/2
g'=G(M/2)/(r/2)^2
which gives g' = 2GM/r^2
g'=2g
acceleration due to gravity got twice of original
++++++++++++++++++++++++++++++++++
hope it helps....
here is your answer...
++++++++++++++++++++++++++++++++++
acceleration due to gravity becomes twice of original.
formula for acceleration due to gravity is
G is a constant equal to 6.67 × 10-11 N-m2/kg2,
M is mass of planet which is also a constant
r is radius of planet which is also a constant
if mass and radius are half of original i.e M/2 and r/2
g'=G(M/2)/(r/2)^2
which gives g' = 2GM/r^2
g'=2g
acceleration due to gravity got twice of original
++++++++++++++++++++++++++++++++++
hope it helps....
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Answered by
7
Weight = Mass × Acceleration Due To Gravity
❣WEIGHT changes with change in acceleration due to gravity.
❣ but MASS remains same in every corner of the universe as it is independent of acceleration due to gravity and gives us the measure of the amount of matter in that substance
hope it helps you....
☺✌☺❤
❣WEIGHT changes with change in acceleration due to gravity.
❣ but MASS remains same in every corner of the universe as it is independent of acceleration due to gravity and gives us the measure of the amount of matter in that substance
hope it helps you....
☺✌☺❤
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