Engineers routinely use trigonometric concepts **to calculate angles**. Civil and mechanical engineers use trigonometry to calculate torque and forces on objects, such as bridges or building girders. An example is the calculation of the static forces on an object that is not moving—such as a bridge.

Trigonometry is what helps the architects to calculate roof slopes, ground surfaces, light angles, structural loads, and height and width of structures to design a mathematical draft that a constructor can use for construction purposes.

Trigonometry is the study of triangles and the principles are fundamental in electrical engineering because it is used to create circuits and describe the sinusoidal movement and characteristics of current and voltages in circuits.

Trigonometry spreads its applications into various fields such as architects, surveyors, astronauts, physicists, engineers and even crime scene investigators.

Chemical engineers use trigonometry to calculate the angle and distance between atoms in molecules. Chemistry is the study of the composition, properties and behavior of matter and trigonometric functions such as sine, cosine and tangent are ideal for calculating three dimensional materials.

Engineers routinely use trigonometric concepts to calculate angles. Civil and mechanical engineers use trigonometry to calculate torque and forces on objects, such as bridges or building girders. An example is the calculation of the static forces on an object that is not moving—such as a bridge.

Aerospace Engineers use trigonometry to figure out how strong certain materials have to be, how much force will be done on a certain part. They also use trig to make all the pieces fit together by making sure all of the angle match up.

Civil engineers have to use math equations that are derived from chemistry on a daily basis. Chemistry's equations are used to measure the strength of materials, and engineers must use these equations to select the right material for a project. Civil engineers use trigonometry often when surveying a structure.

Astronomers use trigonometry to calculate how far stars and planets are from Earth. Even though we know the distances between planets and stars, this mathematical technique is also used by NASA scientists today when they design and launch space shuttles and rockets.

In marine engineering trigonometry is used to build and navigate marine vessels. To be more specific trigonometry is used to design the Marine ramp, which is a sloping surface to connect lower and higher level areas, it can be a slope or even a staircase depending on its application.

Trigonometric Functions in Bending Conduits

It offers certain advantages, such as protecting the electric wires from damage, bonding to the ground throughout the entire circuit, and enabling the user to add more circuits later on.

Computer graphics relies heavily on trigonometry, as well as more advanced mathematical concepts. Physics, particularly physics engines for games.

Trigonometry and its functions have an enormous number of uses in our daily life. For instance, it is used in geography to measure the distance between landmarks, in astronomy to measure the distance of nearby stars and also in the satellite navigation system.

Trigonometry is used in architecture to ensure that buildings are built safely. for example, architects have to calculate exact angles of intersection for components of their structure to ensure stability and safety.

Geometry is used when you're creating patterns or designing your own custom furniture. Trigonometry comes in handy when figuring out the angles on custom windows and doors. It requires understanding spatial geometry.

Trig functions come in handy if you work for NASA or need to measure the vertical distance travelled by a rocket. In this example, a rocket is shot off and travels vertically as a scientist, who's a mile away, watches its flight. One second into the flight, the angle of elevation of the rocket is 30 degrees.

Trigonometry is used when measuring the height and angles of land. It can be used to measure the elevation from a certain point to a mountain, the distance between two trees, and distances across lakes.

Linear analysis, calculus and geometry are among the most important types of math for aspiring engineers, according to Forbes. Trigonometry and statistics may also be required fields of study, The Houston Chronicle reported.

Electrical engineering is the most math heavy of the engineering disciplines. You rely heavily on differential equations when dealing with advanced circuit analysis and electromagnetism is basically a physics and math course.

These Are the 10 Toughest Math Problems Ever Solved

- The Collatz Conjecture. Dave Linkletter. ...
- Goldbach's Conjecture Creative Commons. ...
- The Twin Prime Conjecture. ...
- The Riemann Hypothesis. ...
- The Birch and Swinnerton-Dyer Conjecture. ...
- The Kissing Number Problem. ...
- The Unknotting Problem. ...
- The Large Cardinal Project.

Aerospace engineers use the principles of calculus, trigonometry, and other advanced topics in mathematics for analysis, design, and troubleshooting in their work. Aerospace engineers must have a bachelor's degree in aerospace engineering or some other field of engineering or science related to aerospace systems.

In medicine, doctors use trigonometry as an advanced form of geometry, which deals with triangles. To understand the radioactive waves, radiation, x-rays, UV rays, using devices based trigonometric functions such as CRO (cathode ray oscilloscope).

Trigonometry is used extensively in game development in order for the game to function. Trig is used in writing the programs for games so that objects can move. Also used for designing objects, characters, and sets.

Trigonometry is hard because you have to memorize various values of different functions in both degrees and radians. If you don't remember them, or if you mix them up, then your calculations will be incorrect.