Graph is a collection of points whose coordinates satisfy a given relation.
The greater the ratio of y to x
Mainly , studying graph makes things more clear. Like what all things are inversely proportional and what all are directly proportional.... and all that sort of things. Hope you are satisfied. :D
Just go play some CSS, forget physics.
Physics. Indeed, he won the Nobel Prize in physics -- but not for relativity.Math and Physics
classical physics and (Quantum or modern) Physics
Fracture point
The slope of a velocity-time graph that shows uniform acceleration is the actual acceleration. Instantaneous velocity is the velocity of a body at a particular moment in time.
The greater the ratio of y to x
Mainly , studying graph makes things more clear. Like what all things are inversely proportional and what all are directly proportional.... and all that sort of things. Hope you are satisfied. :D
Isotherms in thermal physics are the lines on a pressure versus volume graph for an ideal gas, where the pressure and volume are alowwed to vary but temperature is kept constant. They are the result of Isothermal expansions or contracions of ideal gasses.
The answer is TRUE because it is a straight line as the graph shows below. http://www.batesville.k12.in.us/physics/apphynet/Measurement/Images/d_vs_t2_graph.gif
The answer is TRUE because it is a straight line as the graph shows below. http://www.batesville.k12.in.us/physics/apphynet/Measurement/Images/d_vs_t2_graph.gif
In the field of physics, statistics help people to identify various trends that point to a certain inference. Getting figures from different experiments and plotting a graph can show how each variable affects the other.
http://www.kineticbooks.com/physics/triallabs/Ideal%20Gas/Analyzing%20data.htm has verything you need to know about graphs and relationships.Your Welcome.
It depends, you have to know which variable (Temperature/Pressure/Volume) is constant, see here http://hypertextbook.com/physics/thermal/pressure-volume/
Noboru Nakanishi has written: 'Graph theory and Feynman integrals' -- subject(s): Feynman integrals, Graph theory 'Covariant operator formalism of gauge theories and quantum gravity' -- subject(s): Gauge fields (Physics), Quantum field theory, Quantum gravity
the five graph is line graph,bar graph,pictograph,pie graph and coin graph