Can A Pendulum Watch Give Correct Time In An Artificial Satellite?

by | Last updated on January 24, 2024

, , , ,

Can a pendulum watch gives correct time in an artificial satellite explain? No, in an artifical satellite, the body is in weightlessness state, whereg=0. The time period of pendulum watch. It means,

inside the satellite pendulum does not oscillate

.

Can pendulum clocks be used in artificial satellite explain?

Solution : No,

we cannot use pendulum clock inside

an artificial satellite as a body is in the state of weightlessness inside the satellite, i.e. g = 0 <br> Since, time period of a pendulum clock is given by <br> `T = 2pisqrt((1)/(g))` <br> `therefore T = oo`, inside an artifical satellite <br> Infinite time period …

Can the pendulum clock be used in a satellite?

In an earth satellite the net acceleration due to the gravity is zero so the bob of the pendulum will be weightless and it will not oscillate. Thus

the pendulum clock cannot be used in an earth satellite

.

Can a pendulum oscillates in an artificial satellite?

Can a pendulum oscillate in an artificial satellite explain?

No a pendulum doesn’t vibrate in an artificial satellite

as there is no gravity.

What will be if a pendulum clock be taken from the earth to a revolving artificial satellite?

Since there is no g in the satellite. So there is no driving force (mg) on the bob of a pendulum for oscillation. Hence the

bob will stop oscillating

.

What is the time period of a simple pendulum inside an artificial satellite?

If a simple pendulum is arranged in an artificial satellite its <br> (i) time period

becomes infinity <br

> (ii) frequecny becomes infinity <br> (iii) both time period and frequency becomes infinity.

Why can’t we use a clock having pendulum in a satellite revolving around the Earth?


Since the time period of the pendulum depends on the gravity of Earth

therefore the pendulum clock in the satellite will not give the correct time and so we can’t use a pendulum clock inside a satellite revolving around earth.

Why a pendulum clock does not work during free fall or in an artificial satellite?

Explain. No, in an artifical satellite, the body is in weightlessness state, whereg=0. … It means,

inside the satellite pendulum does not oscillate

. Hence pendulum watch connot word in satellite.

What is the time period of a simple pendulum of infinite length?

What is the time period of a simple pendulum of infinite length. The answer is

86 minutes

.

What is the time period of a geostationary satellite?

Geostationary orbit, a circular orbit 35,785 km (22,236 miles) above Earth’s Equator in which a satellite’s orbital period is equal to Earth’s rotation period of

23 hours and 56 minutes

. A spacecraft in this orbit appears to an observer on Earth to be stationary in the sky.

Can a simple pendulum experiment be conducted inside a satellite?

No, the

simple pendulum experiment cannot be conducted inside a satellite

as the acceleration due to gravity is zero in space and the time period becomes infinity.

What is the reason for weightlessness in a satellite?

Earth-orbiting astronauts are weightless for the same reasons that riders of a free-falling amusement park ride or a free-falling elevator are weightless. They are weightless

because there is no external contact force pushing or pulling upon their body

. In each case, gravity is the only force acting upon their body.

What happens to the time period of a simple pendulum if its length is doubled?

a) If the length is doubled,

the period will increase by a factor of √2

. Doubling the mass of the bob will half the period. … The mass of the bob will not effect the period.

What is the time period of a simple pendulum inside B at the center of Earth?

So time period at the centre of the earth becomes

infinite

.

Why can’t we use a clock having pendulum?

Since

the time period of the pendulum depends on the gravity of Earth

therefore the pendulum clock in the satellite will not give the correct time and so we can’t use a pendulum clock inside a satellite revolving around earth.

Jasmine Sibley
Author
Jasmine Sibley
Jasmine is a DIY enthusiast with a passion for crafting and design. She has written several blog posts on crafting and has been featured in various DIY websites. Jasmine's expertise in sewing, knitting, and woodworking will help you create beautiful and unique projects.