A Activity diagram used in UML 6/9 and SysML B Bachman diagram Booch used in software engineering Block diagram Block Definition Diagram BDD used in SysML C Carroll diagram Cartogram Catalytic cycle Chemical equation Curly arrow diagram Category theory diagrams Cause-and-effect diagram Chord diagram Circuit diagram Class diagram from UML 1/9 Collaboration diagram from UML 2.0 Communication diagram from UML 2.0 Commutative diagram Comparison diagram Component diagram from UML 3/9 Composite structure diagram from UML 2.0 Concept map Constellation diagram Context diagram Control flow diagram Contour diagram Cordier diagram Cross functional flowchart D Data model diagram Data flow diagram Data structure diagram Dendrogram Dependency diagram Deployment diagram from UML 9/9 Dot and cross diagram Double bubble map used in education Drakon-chart E Entity-Relationship diagram ERD Event-driven process chain Euler diagram Eye diagram a diagram of a received telecommunications signal Express-G Extended Functional Flow Block Diagram EFFBD F Family tree Feynman diagram Flow chart Flow process chart Flow diagram Fusion diagram Free body diagram G Gantt chart shows the timing of tasks or activities used in project management Grotrian diagram Goodman diagram shows the fatigue data example: for a wind turbine blades H Hasse diagram HIPO diagram I Internal Block Diagram IBD used in SysML IDEF0 IDEF1 entity relations Interaction overview diagram from UML Ishikawa diagram J Jackson diagram K Karnaugh map Kinematic diagram L Ladder diagram Line of balance Link grammar diagram M Martin ERD Message Sequence Chart Mind map used for learning, brainstorming, memory, visual thinking and problem solving Minkowski spacetime diagram Molecular orbital diagram N N2 Nassi Shneiderman diagram or structogram a representation for structured programming Nomogram Network diagram O Object diagram from UML 2/9 Organigram Onion diagram also known as "stacked Venn diagram" P Package diagram from UML 4/9 and SysML Parametric diagram from SysML PERT Petri net shows the structure of a distributed system as a directed bipartite graph with annotations Phylogenetic tree - represents a phylogeny evolutionary relationships among groups of organisms Piping and instrumentation diagram P&ID Phase diagram used to present solid/liquid/gas information Plant Diagram Pressure volume diagram used to analyse engines Pourbaix diagram Process flow diagram or PFD used in chemical engineering Program structure diagram R Radar chart Radial Diagram Requirement Diagram Used in SysML Rich Picture R-diagram Routing diagram S Sankey diagram represents material, energy or cost flows with quantity proportional arrows in a process network. Sentence diagram represents the grammatical structure of a natural language sentence. Sequence diagram from UML 8/9 and SysML SDL/GR diagram Specification and Description Language. SDL is a formal language used in computer science. Smith chart Spider chart Spray diagram SSADM Structured Systems Analysis and Design Methodology used in software engineering Star chart/Celestial sphere State diagram are used for state machines in software engineering from UML 7/9 Swim lane Syntax diagram used in software engineering to represent a context-free grammar Systems Biology Graphical Notation a graphical notation used in diagrams of biochemical and cellular processes studied in Systems biology System context diagram System structure Systematic layout planning T Timing Diagram: Digital Timing Diagram Timing Diagram: UML 2.0 TQM Diagram Treemap U UML diagram Unified Modeling Language used in software engineering Use case diagram from UML 5/9 and SysML V Value Stream Mapping Venn diagram Voronoi diagram W Warnier-Orr Williot diagram Y Yourdon-Coad see Edward Yourdon, used in software engineering
I thought velocity was always a vector quantity, one with both magnitude and direction. When it came to the suvat equations, where v = final velocity, and u = initial velocity, I thought both of those were vector quantities, e.g; v (final velocity) 112km hr North u (initial velocity) 0km hr...
The discussion centers on the physics problem of a diver jumping from a 3.00 meter high diving board with an initial upward velocity of 1.75 m s. The diver's velocity upon reaching the water is calculated to be 7.87 m s, using the equation V^2 = Vo^2 2ad. Additionally, the maximum height reached above the water is determined to be 3.3125 meters, combining the height of the jump with the ...
Confusing speed with velocity, neglecting the directional component of velocity. Overlooking that deceleration is still a form of acceleration (negative acceleration). Failing to correctly apply the vector nature of velocity and acceleration in problem solving.
Changing direction while in motion does affect velocity, as velocity is a vector quantity that includes both speed and direction. When an object, such as a weight swung in a circle, changes direction, it experiences acceleration due to the centripetal force acting on it, even if its speed remains constant. The distinction between acceleration and deceleration is crucial; in physics, any change ...
Hence, if the force is perpendicular to the velocity, then , which means the kinetic energy of the particle is constant, hence the speed is constant. Sir but in this derivation we have used the result of derivation"which proves that perpendicular force cannot change the magnitude of velocity" which is my question? Sorry to argue sir.
The discussion revolves around conducting a ticker timer experiment at 50 GHz to calculate displacement, average velocity, and acceleration of a trolley. Participants clarify that total displacement is determined by subtracting the initial position from the final position, while average velocity is calculated as displacement over time. The average acceleration is derived from the change in ...
The discussion focuses on calculating the final velocity of a 9.9 kg object using a Force vs. Displacement graph, given an initial velocity of 28.6 m s. The key equations utilized are W = Fd for work and KE = 1 2mv (final)^2 1 2mv (initial)^2 for kinetic energy. Participants concluded that the work done can be determined by calculating the area under the graph, which consists of a rectangle ...
The discussion centers on the application of Bernoulli's equation to determine the exit velocity of a fluid through a nozzle. The derived formula, , indicates that exit speed is independent of nozzle diameter under ideal conditions.
The discussion focuses on calculating the angular velocity of an object with a moment of inertia of 3.00 kg·m² subjected to varying torque over time. The key equations utilized include torque = angular acceleration × moment of inertia and angular velocity = angular acceleration × change in time. The solution involves integrating the angular acceleration, which is derived from the torque ...
The discussion focuses on calculating the muzzle velocity of a spring loaded toy gun using principles of physics, specifically conservation of energy. The spring constant is given as k = 667 N m, and the mass of the ball is m = 1.50 kg. The correct approach involves equating the elastic potential energy stored in the spring to the kinetic energy of the ball at the equilibrium position, leading ...
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