Ask a Question

Which of the following formula is used to find the force acting on the connecting rod neglecting the cos theta angle and position of the connecting rod?

← Prev Question Next Question →
+1 vote
110 views
in Automotive Engine Design by (137k points)
Which of the following formula is used to find the force acting on the connecting rod neglecting the cos theta angle and position of the connecting rod?

(a) Force=Maximum gas pressure ×(π)

(b) Force=(π×D/4)

(c) Force=(π×D^2/4)×maximum gas pressure

(d) Force=(D^2/4)× Stroke length

The question was posed to me during an interview.

Asked question is from Engine Components topic in chapter Basic Engine Components of Automotive Engine Design

1 Answer

+1 vote
by (1.1m points)
selected by
 
Best answer
The correct answer is (c) Force=(π×D^2/4)×maximum gas pressure

Best explanation: The correct relationship the force acting on the piston is found using Force =(π×D^2/4)×maximum gas pressure where D is the cylinder bore,  maximum gas pressure is in the range of MPa or N/mm^2.

Related questions

Welcome to TalkJarvis QnA, a question-answer community website for the people by the people. On TalkJarvis QnA you can ask your doubts, curiosity, questions and whatever going in your mind either related to studies or others. Experts and people from different fields will answer.

Most popular tags

biology – class 12 biology – class 11 construction & building materials chemistry – class 12 electronic devices & circuits network theory data structures & algorithms ii cell biology ic engine insurance finance money computational fluid dynamics engineering physics i discrete mathematics chemistry – class 11 aerodynamics casting-forming-welding i engineering mathematics operating system casting-forming-welding ii engineering drawing mysql engineering geology digital circuits wireless mobile energy management electrical measurements digital communications cyber security analytical instrumentation embedded systems electric drives cytogenetics advanced machining computer fundamentals life sciences basic civil engineering iot design of electrical machines physics – class 12 applied chemistry dairy engineering basic chemical engineering cloud computing microprocessor bioinformatics aircraft design aircraft maintenance software engineering drug biotechnology digital signal processing biochemistry data structures & algorithms i automotive engine design avionics engineering material & metallurgy energy engineering cognitive radio unix electrical machines biomedical instrumentation object oriented programming electromagnetic theory power electronics analog communications bioprocess engineering civil engineering drawing engineering metrology physics – class 11 mathematics – class 12 engineering chemistry i basic electrical engineering unit processes mongodb signals and systems cryptograph & network security hadoop mathematics – class 11 engineering physics ii html control systems engineering mechanics antennas analog circuits computer network java sql server javascript concrete technology chemical process calculation artificial intelligence design of steel structures c++ database management computer architecture engineering chemistry ii corrosion engineering chemical technology dc machines
Powered by TalkJarvis
...