|
... for
technical oriented readers:
Try to understand following QUESTIONS and ANSWERS in problems
1 + 2
... and then answer the QUESTIONS in part 3 only using your MEMORY
|
THE
ONLY PREREQUISITE TO UNDERSTAND AND TO ANSWER FOLLOWING QUESTIONS
IS:
A)
You must know the units of the special different entities
in physics (primarily LEFT side of your
brain):
i.e. magnetic flux density B in Vs/m², equivalece of energy
units is Ws = Nm etc
... if you don't know it you can learn and memorize it by studying
the answers in Part 1 + 2
B)
You must know the difference between a scalar and vector
in physics (primarily LEFT
side of your brain):
i.e. electrical voltage U (with unit V) is a scalar, electrical
field strength E (with unit V/m) is a vector etc
... if you don't know it you can learn and
memorize it by studying the answers in Part 1 + 2
C) You must use the
right-hand-rule and the 3-finger-rule of your right hand visualizing
directions of resulting vectors in physics
(primarily RIGHT side of your brain ...
only focus your interest on the first two figures built by the right
hand):
IMPORTANT: Handling
with entities and following equations
do not use only the LEFT side of your brain ...
... please also ACTIVATE the RIGHT side of your brain, visualizing
the phenomenon of the special tasks and problems.
.
|
| |
|
Maxwell Hand (basic
right hand rule)
i.e. current density J produces the shown direction of magnetic
field H.
The nail of the thumb is a reminder for lectrical volume
charge density
and the electrical Gauss' law,
the bracelet a reminder for Faraday's induction law.
|
3-finger-rule
applied on all interdisciplinary formulas in physics.
1. (=thumb) + 2.(=index finger) => 3. (=middle finger)
3. = direction of resulting vector... RGB-color-mnemonics
(Red-Green-Blue)
In German ... 1. + 2. => 3. ... U +
V => W ... 1.=Daumen=U (rsache), 2.=Zeigefinger=V (ermittlung),
=> 3.=Mittelfinger=W (irkung)
|
|
|
PART
1: QUESTIONS
and ANSWERS with respect to interdisciplinary
physics
|
|
PART
2: QUESTIONS
and ANSWERS
with respect to interdisciplinary
physics
|
PART
3: Interdisciplinary QUESTIONS about
PART 1 + 2 without answers or hints
deriving
formulas in interdisciplinary physics only using unit checks and MEMORY
|
|
