"Nomograms" Example Sentences
1. The chemists used nomograms to determine chemical concentrations.
2. The sailors consulted nautical nomograms to calculate navigation problems.
3. The physicians referenced nomograms to determine patient dosage levels.
4. Nomograms provide graphical solutions for various mathematical relationships.
5. The engineers plotted variables on the nomograms to solve engineering equations.
6. The students studied nomograms from the textbook as part of their homework.
7. The pilot used the aircraft nomograms to calculate takeoff speeds and fuel burn rates.
8. The astronomers utilize star charts and nomograms to plot celestial motions.
9. The carpenters referenced nomograms to calculate joist spans and rafter lengths.
10. The physicists consulted velocity nomograms to determine projectile launch angles.
11. The accountants referenced tax nomograms to calculate deductions and credits.
12. Nomograms are structured as a series of straight lines on a grid representing different variables within an equation.
13. The lab technician plotted data points on the nomogram to determine sample concentrations.
14. Nomograms provide a useful graphical tool when mathematical equations are complex or time-consuming to solve manually.
15. The machinists used nomograms to determine speeds, feeds and cutting depths for various metalworking operations.
16. Engineers in the early 20th century relied heavily on nomograms for simple and quick calculations.
17. The electricians referenced voltage drop nomograms while wiring the building.
18. They plotted points on the trigonometric nomogram to solve the right triangle.
19. Nomograms can replace lengthy theoretical calculations, slide rules and calculation tables.
20. Construction workers used nomograms to determine the gauge of wire needed for various circuits and loads.
21. The surveyors plotted points on elevation nomograms to calculate distances and terrain features.
22. The ballistics expert referenced trajectory nomograms to plot the bullet flight path.
23. Nomograms require only a straightedge to connect data points and generate a solution.
24. Early aircraft designers relied on aerodynamics nomograms to determine wing size and thrust requirements.
25. Pipefitters consulted hydraulic nomograms for sizing water lines and determining pressure drops.
26. The scientists plotted variables on the nomogram and drew a line through the points to read the solution value.
27. The actuary used statistical nomograms to calculate probabilities and life expectancy figures.
28. Pharmacists used medical nomograms to help determine proper dosages for patients.
29. The designer consulted nomograms to determine bending moments for structural beams and columns.
30. Nomograms present solutions in a simple and intuitive manner without complex formulas or equations.
31. The economists referenced financial nomograms to determine bond yields and interest rates.
32. Nomograms are useful for solving complex equations that do not have convenient algebraic solutions.
33. Structural engineers relied on stress nomograms to determine material strength requirements.
34. The statisticians plotted values on the normal distribution nomogram to determine confidence intervals.
35. The physicist consulted heat transfer nomograms to determine thermal resistances of various materials.
36. Electrical engineers referenced current and voltage nomograms to size wires for power circuits.
37. The geneticist used probability nomograms to calculate the likelihood of genetic traits being passed on.
38. Civil engineers consulted concrete nomograms to determine mix designs and material quantities.
39. Nomograms were widely used in the first half of the 20th century before the advent of electronic calculators.
40. The chemist plotted variables on the electronegativity nomogram to determine bond polarity.
41. The hydrologist referenced hydraulic nomograms to size drainage culverts and water channels.
42. The architects used structural steel nomograms to determine beam sizes for building frames.
43. Nomograms fell out of favor after the 1970s due to the availability of programmable calculators and computers.
44. The materials scientist plotted data points on the phase diagram nomogram.
45. Military analysts referenced firing table nomograms to determine weapon trajectories and range settings.
46. The geologist utilized stereographic nomograms to plot orientations of rock structures.
47. The mechanical engineers referenced heat transfer nomograms to determine surface area requirements for heat sinks.
48. The economist plotted values on the multiplication nomogram to determine factors and products.
49. The mathematician drew a line through points on the trigonometry nomogram to determine ratios of sides and angles.
50. The urban planner referenced traffic flow nomograms to determine road capacities and congestion levels.
51. The military strategist used nomograms to calculate weapon efficiencies, supply requirements and troop deployments.
52. The historical researcher studied old handbooks and catalogs containing nomograms used by engineers in the early 1900s.
53. The machinist plotted spindle speeds and feed rates on the metalworking nomogram.
54. The prospector referenced ore grade nomograms to estimate potential mineral yields from rock samples.
55. Air conditioning engineers relied on heat load nomograms to size cooling and heating equipment for buildings.
56. The dentist plotted variables on the orthodontic nomogram to determine the required rate of tooth movement.
57. The optometrist referenced power equivalence nomograms to determine optical lens strengths.
58. The pharmacologist plotted variables on the pharmacokinetic nomogram to estimate drug absorption rates.
59. Microbiologists used dilution nomograms to determine microbial concentrations in samples.
60. The meteorologist referenced atmospheric stability nomograms to determine wind shear and turbulence levels.
Common Phases
1.
Nomograms are graphically represented equations.
2.
Nomograms offer a visual representation of mathematical relationships.
3.
Nomograms provide an easy solution method for complex equations.
4.
Nomograms replace lengthy calculations and slide rules.
5.
Nomograms require only a straightedge to generate a solution.
6.
Nomograms were widely used before the advent of calculators and computers.
7.
Nomograms fell out of favor with the availability of electronic calculators.
8.
Nomograms provide intuitive solutions without complex formulas.
9.
Nomograms allow quick solutions for engineering, scientific and technical applications.
10.
Nomograms present a graphical analysis technique for mathematically complex equations.