Welcome to Anagrammer Crossword Genius! Keep reading below to see if statics is an answer to any crossword puzzle or word game (Scrabble, Words With Friends etc). Scroll down to see all the info we have compiled on statics.
statics
Searching in Crosswords ...
The answer STATICS has 5 possible clue(s) in existing crosswords.
Searching in Word Games ...
The word STATICS is VALID in some board games. Check STATICS in word games in Scrabble, Words With Friends, see scores, anagrams etc.
Searching in Dictionaries ...
Definitions of statics in various dictionaries:
noun - the branch of mechanics concerned with forces in equilibrium
noun - a crackling or hissing noise caused by electrical interference
noun - angry criticism
more
Word Research / Anagrams and more ...
Keep reading for additional results and analysis below.
Possible Crossword Clues |
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Branch of physics |
Structure acts its part in mathematical syllabus |
Branch of mechanics concerned with forces in equilibrium |
Last Seen in these Crosswords & Puzzles |
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Jul 31 2018 The Washington Post |
Jul 31 2018 L.A. Times Daily |
Jun 6 2016 The Washington Post |
Jan 3 2001 The Guardian - Cryptic crossword |
Jan 3 2001 The Guardian - Cryptic crossword |
Possible Jeopardy Clues |
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Lose a syllable from statistics to study this, when forces combine to form an equilibrium |
Statics description |
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Statics is the branch of mechanics that is concerned with the analysis of loads (force and torque, or "moment") acting on physical systems that do not experience an acceleration (a=0), but rather, are in static equilibrium with their environment. When in static equilibrium, the acceleration of the system is zero and the system is either at rest, or its center of mass moves at constant velocity. The application of Newton's second law to a system gives:* * * * * * F * * * = * m * * * a * * * * . * * * {\displaystyle {\textbf {F}}=m{\textbf {a}}\,.} * Where bold font indicates a vector that has magnitude and direction. F is the total of the forces acting on the system, m is the mass of the system and a is the acceleration of the system. The summation of forces will give the direction and the magnitude of the acceleration will be inversely proportional to the ma |