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PHYSICS FOR MASTER'S STUDENTS
2024-11-16 16:01:35 - Translate

LECTURE 13-SHEATHS, BOHMS CRITERION, BOHM VELOCITY

LECTURE 13-SHEATHS, BOHMS CRITERION, BOHM VELOCITY

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PHYSICS FOR MASTER'S STUDENTS
2024-11-16 15:41:56 - Translate

LECTURE 7-WAVE FUNCTION, PHASE VELOCITY, GROUP VELOCITY, PLASMA FREQUENCY

LECTURE 7-WAVE FUNCTION, PHASE VELOCITY, GROUP VELOCITY, PLASMA FREQUENCY

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PHYSICS FOR MASTER'S STUDENTS
2024-08-30 10:28:21 - Translate

PLASMA PHYSICS LECTURE 7 | Wave function, phase velocity, group velocity, plasma frequency. |

PLASMA PHYSICS LECTURE 7 | Wave function, phase velocity, group velocity, plasma frequency. |

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een video toegevoegd General
2024-08-23 02:20:37 - Translate

"Average Speed and Velocity: #PhysicsBasics #Speed #Velocity #Motion #Kinematics #Distance #Displacement #Time #VectorQuantities #PhysicsTutorial"

"Average Speed and Velocity: #PhysicsBasics #Speed #Velocity #Motion #Kinematics #Distance #Displacement #Time #VectorQuantities #PhysicsTutorial"

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ADVANCED PHYSICS

2024-08-05 18:05:52 - Translate

CALCULATIONS ON RELATIVE VELOCITY

CALCULATIONS ON RELATIVE VELOCITY

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ADVANCED PHYSICS

2024-07-19 05:09:23 - Translate

In Advanced Level Maths, the equations of linear motion are:

1. Constant Acceleration:
- v = u + at
- s = ut + (1/2)at^2
- v^2 = u^2 + 2as

Where:
v = final velocity
u = initial velocity
a = acceleration
t = time
s = displacement

1. Uniform Motion:
- s = vt
- v = s/t

Where:
s = distance
v = constant velocity
t = time

1. Motion with Variable Acceleration:
- dv/dt = a(t)
- v = ∫a(t)dt
- s = ∫v(t)dt

Where:
a(t) is the acceleration function
v(t) is the velocity function
s(t) is the position function

These equations describe linear motion in one dimension. In two or three dimensions, vector equations are used to describe motion.

In Advanced Level Maths, the equations of linear motion are: 1. Constant Acceleration: - v = u + at - s = ut + (1/2)at^2 - v^2 = u^2 + 2as Where: v = final velocity u = initial velocity a = acceleration t = time s = displacement 1. Uniform Motion: - s = vt - v = s/t Where: s = distance v = constant velocity t = time 1. Motion with Variable Acceleration: - dv/dt = a(t) - v = ∫a(t)dt - s = ∫v(t)dt Where: a(t) is the acceleration function v(t) is the velocity function s(t) is the position function These equations describe linear motion in one dimension. In two or three dimensions, vector equations are used to describe motion.

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ADVANCED PHYSICS

2024-07-19 05:07:40 - Translate

In Advanced Level Maths, the equations of linear motion are:

1. Constant Acceleration:
- v = u + at
- s = ut + (1/2)at^2
- v^2 = u^2 + 2as

Where:
v = final velocity
u = initial velocity
a = acceleration
t = time
s = displacement

1. Uniform Motion:
- s = vt
- v = s/t

Where:
s = distance
v = constant velocity
t = time

1. Motion with Variable Acceleration:
- dv/dt = a(t)
- v = ∫a(t)dt
- s = ∫v(t)dt

Where:
a(t) is the acceleration function
v(t) is the velocity function
s(t) is the position function

These equations describe linear motion in one dimension. In two or three dimensions, vector equations are used to describe motion.

In Advanced Level Maths, the equations of linear motion are: 1. Constant Acceleration: - v = u + at - s = ut + (1/2)at^2 - v^2 = u^2 + 2as Where: v = final velocity u = initial velocity a = acceleration t = time s = displacement 1. Uniform Motion: - s = vt - v = s/t Where: s = distance v = constant velocity t = time 1. Motion with Variable Acceleration: - dv/dt = a(t) - v = ∫a(t)dt - s = ∫v(t)dt Where: a(t) is the acceleration function v(t) is the velocity function s(t) is the position function These equations describe linear motion in one dimension. In two or three dimensions, vector equations are used to describe motion.

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ADVANCED PHYSICS

2024-07-19 05:05:47 - Translate

In Advanced Level Maths, the equations of linear motion are:

1. Constant Acceleration:
- v = u + at
- s = ut + (1/2)at^2
- v^2 = u^2 + 2as

Where:
v = final velocity
u = initial velocity
a = acceleration
t = time
s = displacement

1. Uniform Motion:
- s = vt
- v = s/t

Where:
s = distance
v = constant velocity
t = time

1. Motion with Variable Acceleration:
- dv/dt = a(t)
- v = ∫a(t)dt
- s = ∫v(t)dt

Where:
a(t) is the acceleration function
v(t) is the velocity function
s(t) is the position function

These equations describe linear motion in one dimension. In two or three dimensions, vector equations are used to describe motion.

In Advanced Level Maths, the equations of linear motion are: 1. Constant Acceleration: - v = u + at - s = ut + (1/2)at^2 - v^2 = u^2 + 2as Where: v = final velocity u = initial velocity a = acceleration t = time s = displacement 1. Uniform Motion: - s = vt - v = s/t Where: s = distance v = constant velocity t = time 1. Motion with Variable Acceleration: - dv/dt = a(t) - v = ∫a(t)dt - s = ∫v(t)dt Where: a(t) is the acceleration function v(t) is the velocity function s(t) is the position function These equations describe linear motion in one dimension. In two or three dimensions, vector equations are used to describe motion.

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