two equal point charges A and B are R distance apart. A third charge placed on the perpendicular bisector at a distance d from the centre will experience maximum electrostatic force when a) d=R/2 root 2 b) d=R / root 2 c) d=R * root 2 d) R =2root 2 R
Answers
Question:-Two equal point charges A and B are R distance apart. A third point charge placed on the perpendicular bisector at a distance 'd' from the centre will experience maximum electrostatic force when
Two equal point charges A and B are R distance apart. A third point charge placed on the perpendicular bisector at a distance 'd' from the centre will experience maximum electrostatic force when1) d= R/2*sq.root(2)
Two equal point charges A and B are R distance apart. A third point charge placed on the perpendicular bisector at a distance 'd' from the centre will experience maximum electrostatic force when1) d= R/2*sq.root(2)2) d=R/sq.root(2)
Two equal point charges A and B are R distance apart. A third point charge placed on the perpendicular bisector at a distance 'd' from the centre will experience maximum electrostatic force when1) d= R/2*sq.root(2)2) d=R/sq.root(2)3) d=R*sq.root(2)
Two equal point charges A and B are R distance apart. A third point charge placed on the perpendicular bisector at a distance 'd' from the centre will experience maximum electrostatic force when1) d= R/2*sq.root(2)2) d=R/sq.root(2)3) d=R*sq.root(2)4) d=R*2*sq.root(2)
Answer:
option (1)-d=R/2*sq.root(2)
Step-by-step explanation:
Two equal point charges A and B are R distance apart. A third point charge placed on the perpendicular bisector at a distance 'd' from the centre.
Let charge on each particle is q and charge on third particle is Q.
so, net force acting on Q, F = 2fcos , where f = 4kqQ/(R² + 4y²)
and = 2y/√(R² + 4y²)
so, net force , F = 8kqQy/(R² + 4y²)^(3/2)
now, differentiating F with respect to y,
dF/dy = 8kqQ/(R² + 4y²)³ [(R² + 4y²)^(3/2) - y × 3/2 × 8y√(R² + 4y²)]
= 8kqQ/(R² + 4y²)^5/2 [ R² + 4y² - 12y² ]
= 8kqQ/(R² + 4y²)^5/2 [R² - 8y²]
dF/dy = 0, at y = ±R/2√2
but only y = R/2√2 , d²F/dy² < 0 and force will be maximum.
so, at y = R/2√2 electrostatic force will be maximum.
