If the loss in graviational potential en...

If the loss in graviational potential energy to falling the sphere by h height and heat loss to surrounding at constant rate `H` are also taken to account the energy equation will modify to
(A) `m_(1) s_(1) (theta_(1)-theta) + (m_(1)gh)/(J) = m_(2) s_(2) (theta - theta_(2)) + m_(3) s_(3) (theta - theta_(2)) - H t`
(B) `m_(1)s_(1) (theta_(1) -theta) - (m_(1)gh)/(J) = m_(2)s_(2)(theta -theta_(2)) + m_(3) s_(3) (theta -theta_(2)) + Ht`
(C) `m_(1)s_(1) (theta_(1) -theta) + (m_(1)gh)/(J) = m_(2) s_(2) (theta - theta_(2)) + m_(3) s_(3) (theta -theta_(2)) + Ht`
(D) `m_(1) s_(1) (theta_(1)-theta)-(m_(1)gh)/(J)=m_(2)s_(2)(theta-theta_(2)) +m_(3)s_(3)(theta-theta_(2))-Ht` .

Text Solution

Verified by Experts

Heat generated `= m_(1) s_(1) (theta_(1)-theta) + (m_(1)gh)/(J)`

Topper's Solved these Questions

EXPERIMENTAL PHYSICS
RESONANCE|Exercise Exercise|12 Videos
EXPERIMENTAL PHYSICS
RESONANCE|Exercise Exercise -1 PART|1 Videos
ELECTROSTATICS
RESONANCE|Exercise HLP|39 Videos
GEOMATRICAL OPTICS
RESONANCE|Exercise Advance level Problems|35 Videos

Similar Questions

Explore conceptually related problems

If tan theta_(1).tantheta_(2)=k , then: (cos(theta_(1)-theta_(2))/(cos(theta_(1)+theta_(2)))=

if tan theta_(1)=k cot theta_(2) then find (cos(theta_(1)-theta_(2)))/(cos(theta_(1)+theta_(2)))=

(cos(theta_(1)-theta_(2)))/(cos(theta_(1)+theta_(2)))+(cos(theta_(3)+theta_(4)))/(cos(theta_(3)-theta_(4)))=0then(tan theta_(1)*tan theta_(2))/(cot theta_(2)*cot theta_(4))

given that tan(theta_(1)+theta_(2))=(tan theta_(1)+tan theta_(2))/(1-tan theta_(1)*tan theta_(2)) find (theta_(1)+theta_(2)) when tan theta_(1)=(1)/(2),tan theta_(2)=(1)/(3)

If cos theta_(1)=2cos theta_(2), then tan((theta_(1)-theta_(2))/(2))tan((theta_(1)+theta_(2))/(2)) is equal to (a) (1)/(3)(b)-(1)/(3)(c)1(d)-1

If cos theta_(1)+cos theta_(2)+cos theta_(3)=-3 where theta_(1),theta_(2),theta_(3)in[0,2 pi] then value sin((theta_(1))/(2))+sin((theta_(2))/(2))+sin((theta_(3))/(2)) is

If sin theta_(1)+sin theta_(2)+sin theta_(3), then find the value of cos theta_(1)+cos theta_(2)+cos theta_(3)

If : cos theta_(1) = 2 * cos theta_(2), ltbr gt "then" (tan""(theta_(1)-theta_(2))/(2))(tan""(theta_(1) + theta_(2))/(2))= A) (1)/(3) B) -(1)/(3) C)1 D)-1

Let z_(1),z_(2) and z_(3) be three points on |z|=1 . If theta_(1), theta_(2) and theta_(3) be the arguments of z_(1),z_(2),z_(3) respectively, then cos(theta_(1)-theta_(2))+cos(theta_(2)-theta_(3))+cos(theta_(3)-theta_(1))

If tan theta=(m)/(n) , show that (m sin theta-n cos theta)/(m sin theta+n cos theta)=(m^(2)-n^(2))/(m^(2)+n^(2))

RESONANCE-EXPERIMENTAL PHYSICS-PART -II

If the loss in graviational potential energy to falling the sphere by ...
Text Solution
|
Two full turns of the circular scale of a screw gauge cover a distance...
Text Solution
|
An experment is performed to find the refractive index of glass using ...
Text Solution
|
in an experiment the angles are required to be using an instrument, 29...
Text Solution
|
In an optics experiment, with the position of the object fixed, a stud...
Text Solution
|
The respective number of signficant figures for the numbers 23.023, 0...
Text Solution
|
A screw gauge gives the following reading when used to measure the dia...
Text Solution
|
If 400 Omega of resistance is made by adding four 100 Omega resistance...
Text Solution
|
The currect voltage relation of diode is given by 1=(e^(1000 V//T)-1) ...
Text Solution
|
A student measured the length of a rod and wrote it as 3.50cm. Which i...
Text Solution
|
The period of oscillation of a simple pendulum is T = 2pisqrt(L//g). M...
Text Solution
|