Login
Remember
Register
Free Test Series
Q&A
Questions
Unanswered
Ask a Question
Ask a Question
The op amp can amplify
0
votes
asked
Dec 17, 2021
in
Kinematics
by
kritika
(
90.1k
points)
The op amp can amplify
a. AC signals only
b. DC signals only
c. Both ac and dc signals
d. Neither ac nor dc signals
Your answer
Your name to display (optional):
Email me at this address if my answer is selected or commented on:
Email me if my answer is selected or commented on
Privacy: Your email address will only be used for sending these notifications.
1
Answer
0
votes
answered
Dec 17, 2021
by
kritika
(
90.1k
points)
(c) Both ac and dc signals
Your comment on this answer:
Your name to display (optional):
Email me at this address if a comment is added after mine:
Email me if a comment is added after mine
Privacy: Your email address will only be used for sending these notifications.
Related questions
0
votes
1
answer
The input stage of an op amp is usually a
asked
Dec 22, 2021
in
CBSE
by
kritika
(
90.1k
points)
0
votes
3
answers
Q. A machine gun fires a bullet of mass \(40 \mathrm{~g}\) with a velocity \(1200 \mathrm{~ms}^{-1}\). The man holding it can exert a maximum force of \(144 \mathrm{~N}\) on the gun. How many bullets can he fire per second at the most ?
asked
Jan 3, 2022
in
Kinematics
by
kritika
(
90.1k
points)
0
votes
3
answers
The mean free path for a gas, with molecular diameter \(d\) and number density \(n\) can be expressed as :
asked
Dec 29, 2021
in
Kinematics
by
kritika
(
90.1k
points)
0
votes
3
answers
The dissociation equilibrium of a gas \(\mathrm{AB}_{2}\) can be represented as: $$ 2 \mathrm{AB}_{2(g)} \leftrightharpoons 2 \mathrm{AB}_{(g)}+\mathrm{B}_{2(g)} $$ The degree of dissociation is \(x\) and is small compared to 1 . The expression relating the degree of dissociation \((x)\) with equilibrium constant \(K_{p}\) and total pressure \(P\) is
asked
Dec 23, 2021
in
Kinematics
by
kritika
(
90.1k
points)
0
votes
3
answers
A uniform string of length \(L\) and mass \(M\) is fixed at both ends while it is subject to a tension \(T\). It can vibrate at frequencies \((v)\) given by the formula (where \(n=1,2,3, \ldots .\).)
asked
Dec 14, 2021
in
Kinematics
by
kritika
(
90.1k
points)
Welcome to Admisure, where you can ask questions and receive answers from other members of the community.
Categories
All categories
JEE
(1.3k)
Physics
(359)
Kinematics
(332)
Physics and measurements
(3)
Laws of motion
(2)
Work, energy and power
(1)
Rotational motion
(1)
Gravitation
(1)
Properties of solids and liquids
(2)
Thermodynamics
(1)
Kinetics theory of gases
(1)
Oscillations and waves
(1)
Electrostatics
(1)
Current electricity
(1)
Magnetic effects of
(3)
current and magnetism
(1)
Electromagnetic induction and alternating currents
(1)
Optics
(2)
Dual nature of matter and radiation
(1)
Atoms and nuclei
(1)
Electronic devices
(1)
Communications system
(1)
Experimental skills
(1)
Biology
(268)
Chemistry
(272)
Maths
(430)
Statistics
(1)
Test
(138)
Statistics
(288)
Environmental Science
(1.2k)
Biotechnology
(135)
Social Science
(398)
Commerce
(222)
Electronics
(459)
Computer
(124)
Artificial Intelligence (AI)
(232)
Information Technology
(70)
Programming
(113)
Political Science
(82)
Home Science
(334)
Psychology
(138)
Sociology
(293)
English
(337)
Hindi
(34)
Aptitude
(21)
Reasoning
(11)
GK
(41)
Olympiad
(7)
Skill Tips
(14)
CBSE
(364)
...
