This article covers the Punjab Board's 2025–2026 Class 11 Physics Syllabus. Class 11 students can download the syllabus in PDF format to become acquainted with the subjects that will be studied during ...

Video games have pushed speed limits for decades, letting you race everything from rocket-powered cars to futuristic anti-gravity ships. The adrenaline rush of zooming through impossible tracks keeps ...

NASCAR and Formula 1 are both extremely fast circuit racing series, but the cars raced in one of these series are much quicker than those raced in the other.

This equation shows that objects moving faster or in tighter circular paths require greater acceleration to maintain their motion. From Newton's Second Law, we can then find the centripetal force ...

Worked Example A satellite orbits Earth in a circular path at an altitude of 400 k m. The gravitational force acting on the satellite is 15000 N and its mass is 2000 k g. Calculate its orbital ...

Downforce in Formula 1 racing presses the car into the track, increasing tire grip to boost cornering speeds, stabilizing the chassis at high velocities, and refining handling precision, though it ...

A new method allows for determination of axial force on subsea pipelines within the context of DNV-RP-F105-2006, expanding the scope of current recommended practices and benefiting ...

The secret behind how the International Space Station remains in orbit can be traced all the way back to the genius of Sir Isaac Newton.

Centripetal and centrifugal forces are two terms used to describe the physics of circular motion — but only one of them is real. The centripetal force keeps an object moving in a circle and is ...

Centripetal force: The force that keeps an object fixed in its circular path is the centripetal force. Moreover, this topic deals with the definition, example and formula of it.