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Calculations with forces. Often these have to be calculated as vectors, i.e., the direction of the force is taken into account. You should do some reading on vector addition; however, the basic idea is that you can think of the vector as an arrow drawn on paper; the length is proportional (in this case) to the force, the direction indicates the direction. A common tool is to separate the vector (the arrow) into horizontal and vertical components. That way, you can easily add two or more vectors. This requires some trigonometry (or the special functions of your calculator, for rectangular-->polar, and polar-->rectangular conversion).
Calculations with forces. Often these have to be calculated as vectors, i.e., the direction of the force is taken into account. You should do some reading on vector addition; however, the basic idea is that you can think of the vector as an arrow drawn on paper; the length is proportional (in this case) to the force, the direction indicates the direction. A common tool is to separate the vector (the arrow) into horizontal and vertical components. That way, you can easily add two or more vectors. This requires some trigonometry (or the special functions of your calculator, for rectangular-->polar, and polar-->rectangular conversion).
Calculations with forces. Often these have to be calculated as vectors, i.e., the direction of the force is taken into account. You should do some reading on vector addition; however, the basic idea is that you can think of the vector as an arrow drawn on paper; the length is proportional (in this case) to the force, the direction indicates the direction. A common tool is to separate the vector (the arrow) into horizontal and vertical components. That way, you can easily add two or more vectors. This requires some trigonometry (or the special functions of your calculator, for rectangular-->polar, and polar-->rectangular conversion).
Calculations with forces. Often these have to be calculated as vectors, i.e., the direction of the force is taken into account. You should do some reading on vector addition; however, the basic idea is that you can think of the vector as an arrow drawn on paper; the length is proportional (in this case) to the force, the direction indicates the direction. A common tool is to separate the vector (the arrow) into horizontal and vertical components. That way, you can easily add two or more vectors. This requires some trigonometry (or the special functions of your calculator, for rectangular-->polar, and polar-->rectangular conversion).
What else can I help you with?
Is calcul arithmetic or calculus in English?
Arithmetic.
When was Institut de mécanique céleste et de calcul des éphémérides created?
Institut de mécanique céleste et de calcul des éphémérides was created in 1998.
What is 'ingénieur calcul' when translated from French to English?
"Stress engineer" is an English equivalent of the French phrase ingénieur calcul. The masculine singular job title may be found expanded to ingénieur calcul de structures to emphasize structural stress engineering skills. The pronunciation will be "eh-djey-nyur kal-kyool (duh stryook-tyoor)" in French.
What has the author M Picard written?
M. Picard has written: 'Le calcul quotidien'
What has the author Rene Brandicourt written?
Rene . Brandicourt has written: 'Le chemin du calcul'
What has the author Daniel Villesuzanne written?
Daniel Villesuzanne has written: 'Le calcul du geometre'
How do you calcul ate area of a circle?
For a circle, area = pi x radius2, where pi is approximate 3.14.
What has the author A Boivin written?
A. Boivin has written: 'Theorie et calcul des figures de diffraction de revolution'
What has the author Robert Gouiran written?
Robert Gouiran has written: 'Introduction au calcul matriciel' -- subject(s): Matrices
What has the author Joseph Alfred Serret written?
Joseph Alfred Serret has written: 'Cours de calcul differentiel et integral'
What has the author Jean Baptiste Pomey written?
Jean Baptiste Pomey has written: 'Notions de calcul tensoriel' -- subject(s): Calculus of tensors
What has the author Jean Jacques Gleitz written?
Jean Jacques Gleitz has written: 'Le calcul analogique' -- subject(s): Electronic analog computers
