Channel Avatar

Tutor - Praveen Singh @UCiY4q9XRNUkyIkx7F4HHBFg@youtube.com

889 subscribers - no pronouns :c

Love πŸ’— and Passion for teaching. If videos are helpfull th


02:29
Force is applied on an object at rest and F-t graph drawn||Final velocity||Force-Time graph||impulse
02:28
The compression force F in the girder||A girder supporting a load of 10000 N||Equilibrium of forces
03:43
Diagram shows a cord supporting a picture,draw the graph between tension T in the cord and the angle
09:28
A thin circular loop of radius R rotates about its vertical diameter,a small bead on the wire remain
07:11
A car moves uniformly along a horizontal Sine curve||at what velocity the car ride without sliding||
06:41
A Cyclist rides along the circumference of a circular horizontal plane of radius R||Circular Motion
03:53
Minimum rotational speed of the cylinder to enable the man to remain stuck to the wall||friction||
03:59
Maximum value of force F such that block does not move||Friction||Laws of Motion||static friction||
04:35
Force time graph impulse||Area under F-t graph||Impulse||change in linear momentum||Final velocity
02:12
Minimum Force F applied to M so that load m just begin to slide on it||Friction||Pseudo force||
05:44
bullet of mass m strikes wooden block of mass M kept on rough horizontal surface||Linear momentum||
06:20
A ball falls from height H and rebound to height h|Impulse and average force between ground and ball
04:19
Force-time graph||Impulse|change in Linear Momentum||Final velocity from F-t graph|Area of F-t graph
06:11
A liquid of density ro flows along a horizontal pipe of uniform cross section area with velocity v
04:07
A force acting on a material particle of mass m first grows to maximum value F||find final velocity
04:13
Liquid Vessel with two hole||Why the liquid from lower hole strike the ground at larger distance||
05:59
Pressure inside the liquid filled Tube||Pressure inside vertically place tube and Inclined tube||
02:56
uniform Sphere of weight W & radius 5cm is being held by string||Tension in string & Normal reaction
13:47
Bending of Cyclist||Why Cyclist bend while turning||Motion of Bicycle rider round the circular track
05:41
Graph between applied force P & friction force f||block placed on rough horizontal surface||Friction
10:07
Angle of repose|Variation of friction force f between the block and the plane with inclination theta
05:27
A object takes n time as much time to slide down a 45Β° rough inclined plane as it takes to slide
10:53
A small body starts sliding down an inclined plane, at what angle the time of sliding will be least
04:34
Maximum Amplitude of oscillation of the table at which the block kept on it doesn't slip||SHM
05:47
Magnitude & direction of force in xy plane if displacement is x=c sin(wt) and y=d cos(wt)||2D motion
03:59
A body of mass 10kg is being acted upon by a force 3t^2 and a constant opposing force of 32N, find V
07:45
The Kinetic Energy K of a particle moving along circle of radius R depends on distance covered S
05:19
Force from potential energy function||particle moving under the action of central force|Time period
03:55
Weight of object at equator of earth||Determine the speed with which the earth would have to rotate
05:04
Which Liquid has highest density?? same block of wood floating in three different liquid||Upthrust
04:39
Wire with a resistance R is drawn out so that its length becomes three time the original||resistance
08:13
Potential difference V is applied across conductor of length L and diameter D||Electric field E & R
05:05
wire of resistance 32 ohm is melted & drawn into wire of half of its original length||new resistance
04:57
Two Wire A & B of equal masses and same metal||Diameter of A is half that of B||Resistance of wire B
14:49
Simple Pendulum||Bob position & Energy representation using Sinusoidal wave||Amplitude||Time Period
04:12
Charge flow through AB when switch S is closed||Capacitive Circuit||Capacitor||Charge flow||Circuit
07:16
Capacitive Circuit||Nodal Analysis Method||Sum of Charge ||Zero Potential Method||Potential at C & D
14:50
Change in radius of the charged ring if a charge of Q coulomb is placed at the center of the ring
08:26
one stone is dropped and other thrown horizontally with velocity u from the tower of height H||Time
05:17
Electric Potential existing in space to expression for Electric field||Potential & Electric Field||
07:31
Electric field due to a long thin wire of uniform linear charge density||Electric field intensity||
03:51
Eight point Charge q each placed at the corner of cube|Electrostatic Potential Energy of the system|
02:56
Potential at Point from Electric Field vector||How to find Potential from electric field vector||
02:32
Electric Field Vector to Potential at a point||Electrostatics||Electric field||Electric potential||
06:19
Electric Potential to Electric Field||Gradient of Potential||Potential Gradient||Electric field||
06:06
Electric field vector from scalar Electric potential function||Electric field from electric ptential
06:16
Parabola|Symmetrical about -ve y-axis|Different Parameter & equation|Reduce general to standard form
06:02
Parabola Symmetrical about +y axis|Vertex,focus,directrix,axis,tangent at Vertex,Latus rectum length
16:45
Find Vertex,focus,directrix,axis,length of latus rectum and tangent at the vertex of the parabola
12:51
Potential Difference between A & B||Work required to move an electron from A to B along three Path||
10:04
Workdone in moving charge q along closed rectangular path ABCDA in Electric field|Conservative Field
06:27
A test charge is moved from A to C along the path||Potential difference between A & C along the Path
04:36
Uniform Circular Motion||Constant Speed or Constant Velocity ??Speed or velocity which is constant||
09:07
Work required to move an electron from A to B in Electric field||Workdone by field in moving charge|
09:16
Eight point charges are located at the corners of a cube||workdone to separate charges to infinity||
04:04
workdone by the Electric field in moving the charge q from P to S along the path PQRS|Electrostatics
16:01
Work required to move an electron from A to B in Electric field|| Potential difference between A&B||
07:32
Periodicity of Sum of two Signal||How to check periodicity||check for periodic and aperiodic||Signal
05:14
Acceleration due to gravity on Moon surface||Weight of object on moon surface||gravity force on moon
06:13
Time Period of Oscillation of Simple Pendulum||Formula derivation||How to derive time period formula