A further approach to calculate distances of astronomical objects (like distant galaxies, stars, etc.)

Further approach to calculate distances of astronomical objects

Have you ever read “How we calculate distance of astronomical objects (like distant galaxies, stars, black holes, planets, etc.)”

{ If no then click this link-

Cause you can only understand this if you know about this. }

If so, then proceed with this article.

Here’s a further approach to calculate astronomical distances (distance of astronomical objects like distant galaxies, stars, black holes, planets, etc.)

Actually, by this we can calculate astronomical distances back in time.

But remember this is hypothetical it doesn’t have any proof.

This is given by Nikhil Rathore

So, without wasting much time lets begin with this.

Distance Time

By: Nikhil Rathore

When we calculate the distance of any astronomical object (say like any far galaxy, star,planet, etc) which is moving with respect to us. Then we estimate the light coming from it to us, to calculate its distance from us. But since that astronomical object is at some distance from us, then light will also going to take some time from it to reach us.

In that time [time taken by light from it (astronomical object) to reach us] might that object be able to move itself to some other distance from us (as it is moving with respect to us). Then in this case we are not calculating its distance from us at present, but rather we are calculating its distance from us back in time i.e. the time when that object emit that light which are received by us at present to calculate its distance.

As we are calculating its distance from us back in time so one can write the calculated distance like this:

____(Distance calculated by us) at _____ (time taken by light from it to reach us) back in time.

As we calculate its distance from us back in time hence this is known as distance time.

Explained using example of Andromeda galaxy-

Like andromeda galaxy is coming towards us at a very fast speed i.e. it is moving with respect to us. The present distance of Andromeda from us is 2.5 million light years. We calculate this distance by estimating the light coming from it to us. But since light will going to take some time from it to reach us. Hence it(light) from Andromeda will going to take some time from it to reach us. Since Andromeda is very far from us then light will also going to take a huge time from it to reach us (say light will take approximately 2.5 million years from Andromeda to reach us). In that time might Andromeda has come closer to us or might have moved some other distance from us (as Andromeda is coming towards us at a very fast speed or I can say it is moving with respect to us),then the calculated distance of Andromeda from us might be uncertain, or I can say that we are not calculating the distance of Andromeda from us at present but rather we are calculating its distance from us back in time.

So one can write the calculated distance of Andromeda from us like this:

2.5 million light years at 2.5 million years back in time.

As we are calculating its distance from us back in time hence this is known as distance time.

Well this is just an explained summary however you can access to the full article in the link.

Link:

A further approach to calculate distances of astronomical objects (like distant galaxies, stars, etc.)

Further approach to calculate distances of astronomical objects

Have you ever read “How we calculate distance of astronomical objects (like distant galaxies, stars, black holes, planets, etc.)”

{ If no then click this link-

Cause you can only understand this if you know about this. }

If so, then proceed with this article.

Here’s a further approach to calculate astronomical distances (distance of astronomical objects like distant galaxies, stars, black holes, planets, etc.)

Actually, by this we can calculate astronomical distances back in time.

But remember this is hypothetical it doesn’t have any proof.

This is given by Nikhil Rathore

So, without wasting much time lets begin with this.

Distance Time

By: Nikhil Rathore

When we calculate the distance of any astronomical object (say like any far galaxy, star,planet, etc) which is moving with respect to us. Then we estimate the light coming from it to us, to calculate its distance from us. But since that astronomical object is at some distance from us, then light will also going to take some time from it to reach us.

In that time [time taken by light from it (astronomical object) to reach us] might that object be able to move itself to some other distance from us (as it is moving with respect to us). Then in this case we are not calculating its distance from us at present, but rather we are calculating its distance from us back in time i.e. the time when that object emit that light which are received by us at present to calculate its distance.

As we are calculating its distance from us back in time so one can write the calculated distance like this:

____(Distance calculated by us) at _____ (time taken by light from it to reach us) back in time.

As we calculate its distance from us back in time hence this is known as distance time.

Explained using example of Andromeda galaxy-

Like andromeda galaxy is coming towards us at a very fast speed i.e. it is moving with respect to us. The present distance of Andromeda from us is 2.5 million light years. We calculate this distance by estimating the light coming from it to us. But since light will going to take some time from it to reach us. Hence it(light) from Andromeda will going to take some time from it to reach us. Since Andromeda is very far from us then light will also going to take a huge time from it to reach us (say light will take approximately 2.5 million years from Andromeda to reach us). In that time might Andromeda has come closer to us or might have moved some other distance from us (as Andromeda is coming towards us at a very fast speed or I can say it is moving with respect to us),then the calculated distance of Andromeda from us might be uncertain, or I can say that we are not calculating the distance of Andromeda from us at present but rather we are calculating its distance from us back in time.

So one can write the calculated distance of Andromeda from us like this:

2.5 million light years at 2.5 million years back in time.

As we are calculating its distance from us back in time hence this is known as distance time.

Well this is just an explained summary however you can access to the full article in the link.

Link:

A further approach to calculate distances of astronomical objects (like distant galaxies, stars, etc.)

Further approach to calculate distances of astronomical objects

Have you ever read “How we calculate distance of astronomical objects (like distant galaxies, stars, black holes, planets, etc.)”

{ If no then click this link-

Cause you can only understand this if you know about this. }

If so, then proceed with this article.

Here’s a further approach to calculate astronomical distances (distance of astronomical objects like distant galaxies, stars, black holes, planets, etc.)

Actually, by this we can calculate astronomical distances back in time.

But remember this is hypothetical it doesn’t have any proof.

This is given by Nikhil Rathore

So, without wasting much time lets begin with this.

Distance Time

By: Nikhil Rathore

When we calculate the distance of any astronomical object (say like any far galaxy, star,planet, etc) which is moving with respect to us. Then we estimate the light coming from it to us, to calculate its distance from us. But since that astronomical object is at some distance from us, then light will also going to take some time from it to reach us.

In that time [time taken by light from it (astronomical object) to reach us] might that object be able to move itself to some other distance from us (as it is moving with respect to us). Then in this case we are not calculating its distance from us at present, but rather we are calculating its distance from us back in time i.e. the time when that object emit that light which are received by us at present to calculate its distance.

As we are calculating its distance from us back in time so one can write the calculated distance like this:

____(Distance calculated by us) at _____ (time taken by light from it to reach us) back in time.

As we calculate its distance from us back in time hence this is known as distance time.

Explained using example of Andromeda galaxy-

Like andromeda galaxy is coming towards us at a very fast speed i.e. it is moving with respect to us. The present distance of Andromeda from us is 2.5 million light years. We calculate this distance by estimating the light coming from it to us. But since light will going to take some time from it to reach us. Hence it(light) from Andromeda will going to take some time from it to reach us. Since Andromeda is very far from us then light will also going to take a huge time from it to reach us (say light will take approximately 2.5 million years from Andromeda to reach us). In that time might Andromeda has come closer to us or might have moved some other distance from us (as Andromeda is coming towards us at a very fast speed or I can say it is moving with respect to us),then the calculated distance of Andromeda from us might be uncertain, or I can say that we are not calculating the distance of Andromeda from us at present but rather we are calculating its distance from us back in time.

So one can write the calculated distance of Andromeda from us like this:

2.5 million light years at 2.5 million years back in time.

As we are calculating its distance from us back in time hence this is known as distance time.

Well this is just an explained summary however you can access to the full article in the link.

Link:

A further approach to calculate distances of astronomical objects (like distant galaxies, stars, etc.)

Further approach to calculate distances of astronomical objects

Have you ever read “How we calculate distance of astronomical objects (like distant galaxies, stars, black holes, planets, etc.)”

{ If no then click this link-

Cause you can only understand this if you know about this. }

If so, then proceed with this article.

Here’s a further approach to calculate astronomical distances (distance of astronomical objects like distant galaxies, stars, black holes, planets, etc.)

Actually, by this we can calculate astronomical distances back in time.

But remember this is hypothetical it doesn’t have any proof.

This is given by Nikhil Rathore

So, without wasting much time lets begin with this.

Distance Time

By: Nikhil Rathore

When we calculate the distance of any astronomical object (say like any far galaxy, star,planet, etc) which is moving with respect to us. Then we estimate the light coming from it to us, to calculate its distance from us. But since that astronomical object is at some distance from us, then light will also going to take some time from it to reach us.

In that time [time taken by light from it (astronomical object) to reach us] might that object be able to move itself to some other distance from us (as it is moving with respect to us). Then in this case we are not calculating its distance from us at present, but rather we are calculating its distance from us back in time i.e. the time when that object emit that light which are received by us at present to calculate its distance.

As we are calculating its distance from us back in time so one can write the calculated distance like this:

____(Distance calculated by us) at _____ (time taken by light from it to reach us) back in time.

As we calculate its distance from us back in time hence this is known as distance time.

Explained using example of Andromeda galaxy-

Like andromeda galaxy is coming towards us at a very fast speed i.e. it is moving with respect to us. The present distance of Andromeda from us is 2.5 million light years. We calculate this distance by estimating the light coming from it to us. But since light will going to take some time from it to reach us. Hence it(light) from Andromeda will going to take some time from it to reach us. Since Andromeda is very far from us then light will also going to take a huge time from it to reach us (say light will take approximately 2.5 million years from Andromeda to reach us). In that time might Andromeda has come closer to us or might have moved some other distance from us (as Andromeda is coming towards us at a very fast speed or I can say it is moving with respect to us),then the calculated distance of Andromeda from us might be uncertain, or I can say that we are not calculating the distance of Andromeda from us at present but rather we are calculating its distance from us back in time.

So one can write the calculated distance of Andromeda from us like this:

2.5 million light years at 2.5 million years back in time.

As we are calculating its distance from us back in time hence this is known as distance time.

Well this is just an explained summary however you can access to the full article in the link.

Link:

A further approach to calculate distances of astronomical objects (like distant galaxies, stars, etc.)

Further approach to calculate distances of astronomical objects

Have you ever read “How we calculate distance of astronomical objects (like distant galaxies, stars, black holes, planets, etc.)”

{ If no then click this link-

Cause you can only understand this if you know about this. }

If so, then proceed with this article.

Here’s a further approach to calculate astronomical distances (distance of astronomical objects like distant galaxies, stars, black holes, planets, etc.)

Actually, by this we can calculate astronomical distances back in time.

But remember this is hypothetical it doesn’t have any proof.

This is given by Nikhil Rathore

So, without wasting much time lets begin with this.

Distance Time

By: Nikhil Rathore

When we calculate the distance of any astronomical object (say like any far galaxy, star,planet, etc) which is moving with respect to us. Then we estimate the light coming from it to us, to calculate its distance from us. But since that astronomical object is at some distance from us, then light will also going to take some time from it to reach us.

In that time [time taken by light from it (astronomical object) to reach us] might that object be able to move itself to some other distance from us (as it is moving with respect to us). Then in this case we are not calculating its distance from us at present, but rather we are calculating its distance from us back in time i.e. the time when that object emit that light which are received by us at present to calculate its distance.

As we are calculating its distance from us back in time so one can write the calculated distance like this:

____(Distance calculated by us) at _____ (time taken by light from it to reach us) back in time.

As we calculate its distance from us back in time hence this is known as distance time.

Explained using example of Andromeda galaxy-

Like andromeda galaxy is coming towards us at a very fast speed i.e. it is moving with respect to us. The present distance of Andromeda from us is 2.5 million light years. We calculate this distance by estimating the light coming from it to us. But since light will going to take some time from it to reach us. Hence it(light) from Andromeda will going to take some time from it to reach us. Since Andromeda is very far from us then light will also going to take a huge time from it to reach us (say light will take approximately 2.5 million years from Andromeda to reach us). In that time might Andromeda has come closer to us or might have moved some other distance from us (as Andromeda is coming towards us at a very fast speed or I can say it is moving with respect to us),then the calculated distance of Andromeda from us might be uncertain, or I can say that we are not calculating the distance of Andromeda from us at present but rather we are calculating its distance from us back in time.

So one can write the calculated distance of Andromeda from us like this:

2.5 million light years at 2.5 million years back in time.

As we are calculating its distance from us back in time hence this is known as distance time.

Well this is just an explained summary however you can access to the full article in the link.

Link:

A further approach to calculate distances of astronomical objects (like distant galaxies, stars, etc.)

Further approach to calculate distances of astronomical objects

Have you ever read “How we calculate distance of astronomical objects (like distant galaxies, stars, black holes, planets, etc.)”

{ If no then click this link-

Cause you can only understand this if you know about this. }

If so, then proceed with this article.

Here’s a further approach to calculate astronomical distances (distance of astronomical objects like distant galaxies, stars, black holes, planets, etc.)

Actually, by this we can calculate astronomical distances back in time.

But remember this is hypothetical it doesn’t have any proof.

This is given by Nikhil Rathore

So, without wasting much time lets begin with this.

Distance Time

By: Nikhil Rathore

When we calculate the distance of any astronomical object (say like any far galaxy, star,planet, etc) which is moving with respect to us. Then we estimate the light coming from it to us, to calculate its distance from us. But since that astronomical object is at some distance from us, then light will also going to take some time from it to reach us.

In that time [time taken by light from it (astronomical object) to reach us] might that object be able to move itself to some other distance from us (as it is moving with respect to us). Then in this case we are not calculating its distance from us at present, but rather we are calculating its distance from us back in time i.e. the time when that object emit that light which are received by us at present to calculate its distance.

As we are calculating its distance from us back in time so one can write the calculated distance like this:

____(Distance calculated by us) at _____ (time taken by light from it to reach us) back in time.

As we calculate its distance from us back in time hence this is known as distance time.

Explained using example of Andromeda galaxy-

Like andromeda galaxy is coming towards us at a very fast speed i.e. it is moving with respect to us. The present distance of Andromeda from us is 2.5 million light years. We calculate this distance by estimating the light coming from it to us. But since light will going to take some time from it to reach us. Hence it(light) from Andromeda will going to take some time from it to reach us. Since Andromeda is very far from us then light will also going to take a huge time from it to reach us (say light will take approximately 2.5 million years from Andromeda to reach us). In that time might Andromeda has come closer to us or might have moved some other distance from us (as Andromeda is coming towards us at a very fast speed or I can say it is moving with respect to us),then the calculated distance of Andromeda from us might be uncertain, or I can say that we are not calculating the distance of Andromeda from us at present but rather we are calculating its distance from us back in time.

So one can write the calculated distance of Andromeda from us like this:

2.5 million light years at 2.5 million years back in time.

As we are calculating its distance from us back in time hence this is known as distance time.

Well this is just an explained summary however you can access to the full article in the link.

Link:

A further approach to calculate distances of astronomical objects (like distant galaxies, stars, etc.)

Further approach to calculate distances of astronomical objects

Have you ever read “How we calculate distance of astronomical objects (like distant galaxies, stars, black holes, planets, etc.)”

{ If no then click this link-

Cause you can only understand this if you know about this. }

If so, then proceed with this article.

Here’s a further approach to calculate astronomical distances (distance of astronomical objects like distant galaxies, stars, black holes, planets, etc.)

Actually, by this we can calculate astronomical distances back in time.

But remember this is hypothetical it doesn’t have any proof.

This is given by Nikhil Rathore

So, without wasting much time lets begin with this.

Distance Time

By: Nikhil Rathore

When we calculate the distance of any astronomical object (say like any far galaxy, star,planet, etc) which is moving with respect to us. Then we estimate the light coming from it to us, to calculate its distance from us. But since that astronomical object is at some distance from us, then light will also going to take some time from it to reach us.

In that time [time taken by light from it (astronomical object) to reach us] might that object be able to move itself to some other distance from us (as it is moving with respect to us). Then in this case we are not calculating its distance from us at present, but rather we are calculating its distance from us back in time i.e. the time when that object emit that light which are received by us at present to calculate its distance.

As we are calculating its distance from us back in time so one can write the calculated distance like this:

____(Distance calculated by us) at _____ (time taken by light from it to reach us) back in time.

As we calculate its distance from us back in time hence this is known as distance time.

Explained using example of Andromeda galaxy-

Like andromeda galaxy is coming towards us at a very fast speed i.e. it is moving with respect to us. The present distance of Andromeda from us is 2.5 million light years. We calculate this distance by estimating the light coming from it to us. But since light will going to take some time from it to reach us. Hence it(light) from Andromeda will going to take some time from it to reach us. Since Andromeda is very far from us then light will also going to take a huge time from it to reach us (say light will take approximately 2.5 million years from Andromeda to reach us). In that time might Andromeda has come closer to us or might have moved some other distance from us (as Andromeda is coming towards us at a very fast speed or I can say it is moving with respect to us),then the calculated distance of Andromeda from us might be uncertain, or I can say that we are not calculating the distance of Andromeda from us at present but rather we are calculating its distance from us back in time.

So one can write the calculated distance of Andromeda from us like this:

2.5 million light years at 2.5 million years back in time.

As we are calculating its distance from us back in time hence this is known as distance time.

Well this is just an explained summary however you can access to the full article in the link.

Link:

A further approach to calculate distances of astronomical objects (like distant galaxies, stars, etc.)

Further approach to calculate distances of astronomical objects

Have you ever read “How we calculate distance of astronomical objects (like distant galaxies, stars, black holes, planets, etc.)”

{ If no then click this link-

Cause you can only understand this if you know about this. }

If so, then proceed with this article.

Here’s a further approach to calculate astronomical distances (distance of astronomical objects like distant galaxies, stars, black holes, planets, etc.)

Actually, by this we can calculate astronomical distances back in time.

But remember this is hypothetical it doesn’t have any proof.

This is given by Nikhil Rathore

So, without wasting much time lets begin with this.

Distance Time

By: Nikhil Rathore

When we calculate the distance of any astronomical object (say like any far galaxy, star,planet, etc) which is moving with respect to us. Then we estimate the light coming from it to us, to calculate its distance from us. But since that astronomical object is at some distance from us, then light will also going to take some time from it to reach us.

In that time [time taken by light from it (astronomical object) to reach us] might that object be able to move itself to some other distance from us (as it is moving with respect to us). Then in this case we are not calculating its distance from us at present, but rather we are calculating its distance from us back in time i.e. the time when that object emit that light which are received by us at present to calculate its distance.

As we are calculating its distance from us back in time so one can write the calculated distance like this:

____(Distance calculated by us) at _____ (time taken by light from it to reach us) back in time.

As we calculate its distance from us back in time hence this is known as distance time.

Explained using example of Andromeda galaxy-

Like andromeda galaxy is coming towards us at a very fast speed i.e. it is moving with respect to us. The present distance of Andromeda from us is 2.5 million light years. We calculate this distance by estimating the light coming from it to us. But since light will going to take some time from it to reach us. Hence it(light) from Andromeda will going to take some time from it to reach us. Since Andromeda is very far from us then light will also going to take a huge time from it to reach us (say light will take approximately 2.5 million years from Andromeda to reach us). In that time might Andromeda has come closer to us or might have moved some other distance from us (as Andromeda is coming towards us at a very fast speed or I can say it is moving with respect to us),then the calculated distance of Andromeda from us might be uncertain, or I can say that we are not calculating the distance of Andromeda from us at present but rather we are calculating its distance from us back in time.

So one can write the calculated distance of Andromeda from us like this:

2.5 million light years at 2.5 million years back in time.

As we are calculating its distance from us back in time hence this is known as distance time.

Well this is just an explained summary however you can access to the full article in the link.

Link:

A further approach to calculate distances of astronomical objects (like distant galaxies, stars, etc.)

Further approach to calculate distances of astronomical objects

Have you ever read “How we calculate distance of astronomical objects (like distant galaxies, stars, black holes, planets, etc.)”

{ If no then click this link-

Cause you can only understand this if you know about this. }

If so, then proceed with this article.

Here’s a further approach to calculate astronomical distances (distance of astronomical objects like distant galaxies, stars, black holes, planets, etc.)

Actually, by this we can calculate astronomical distances back in time.

But remember this is hypothetical it doesn’t have any proof.

This is given by Nikhil Rathore

So, without wasting much time lets begin with this.

Distance Time

By: Nikhil Rathore

When we calculate the distance of any astronomical object (say like any far galaxy, star,planet, etc) which is moving with respect to us. Then we estimate the light coming from it to us, to calculate its distance from us. But since that astronomical object is at some distance from us, then light will also going to take some time from it to reach us.

In that time [time taken by light from it (astronomical object) to reach us] might that object be able to move itself to some other distance from us (as it is moving with respect to us). Then in this case we are not calculating its distance from us at present, but rather we are calculating its distance from us back in time i.e. the time when that object emit that light which are received by us at present to calculate its distance.

As we are calculating its distance from us back in time so one can write the calculated distance like this:

____(Distance calculated by us) at _____ (time taken by light from it to reach us) back in time.

As we calculate its distance from us back in time hence this is known as distance time.

Explained using example of Andromeda galaxy-

Like andromeda galaxy is coming towards us at a very fast speed i.e. it is moving with respect to us. The present distance of Andromeda from us is 2.5 million light years. We calculate this distance by estimating the light coming from it to us. But since light will going to take some time from it to reach us. Hence it(light) from Andromeda will going to take some time from it to reach us. Since Andromeda is very far from us then light will also going to take a huge time from it to reach us (say light will take approximately 2.5 million years from Andromeda to reach us). In that time might Andromeda has come closer to us or might have moved some other distance from us (as Andromeda is coming towards us at a very fast speed or I can say it is moving with respect to us),then the calculated distance of Andromeda from us might be uncertain, or I can say that we are not calculating the distance of Andromeda from us at present but rather we are calculating its distance from us back in time.

So one can write the calculated distance of Andromeda from us like this:

2.5 million light years at 2.5 million years back in time.

As we are calculating its distance from us back in time hence this is known as distance time.

Well this is just an explained summary however you can access to the full article in the link.

Link:

A further approach to calculate distances of astronomical objects (like distant galaxies, stars, etc.)

Further approach to calculate distances of astronomical objects

Have you ever read “How we calculate distance of astronomical objects (like distant galaxies, stars, black holes, planets, etc.)”

{ If no then click this link-

Cause you can only understand this if you know about this. }

If so, then proceed with this article.

Here’s a further approach to calculate astronomical distances (distance of astronomical objects like distant galaxies, stars, black holes, planets, etc.)

Actually, by this we can calculate astronomical distances back in time.

But remember this is hypothetical it doesn’t have any proof.

This is given by Nikhil Rathore

So, without wasting much time lets begin with this.

Distance Time

By: Nikhil Rathore

When we calculate the distance of any astronomical object (say like any far galaxy, star,planet, etc) which is moving with respect to us. Then we estimate the light coming from it to us, to calculate its distance from us. But since that astronomical object is at some distance from us, then light will also going to take some time from it to reach us.

In that time [time taken by light from it (astronomical object) to reach us] might that object be able to move itself to some other distance from us (as it is moving with respect to us). Then in this case we are not calculating its distance from us at present, but rather we are calculating its distance from us back in time i.e. the time when that object emit that light which are received by us at present to calculate its distance.

As we are calculating its distance from us back in time so one can write the calculated distance like this:

____(Distance calculated by us) at _____ (time taken by light from it to reach us) back in time.

As we calculate its distance from us back in time hence this is known as distance time.

Explained using example of Andromeda galaxy-

Like andromeda galaxy is coming towards us at a very fast speed i.e. it is moving with respect to us. The present distance of Andromeda from us is 2.5 million light years. We calculate this distance by estimating the light coming from it to us. But since light will going to take some time from it to reach us. Hence it(light) from Andromeda will going to take some time from it to reach us. Since Andromeda is very far from us then light will also going to take a huge time from it to reach us (say light will take approximately 2.5 million years from Andromeda to reach us). In that time might Andromeda has come closer to us or might have moved some other distance from us (as Andromeda is coming towards us at a very fast speed or I can say it is moving with respect to us),then the calculated distance of Andromeda from us might be uncertain, or I can say that we are not calculating the distance of Andromeda from us at present but rather we are calculating its distance from us back in time.

So one can write the calculated distance of Andromeda from us like this:

2.5 million light years at 2.5 million years back in time.

As we are calculating its distance from us back in time hence this is known as distance time.

Well this is just an explained summary however you can access to the full article in the link.

Link:

A further approach to calculate distances of astronomical objects (like distant galaxies, stars, etc.)

Further approach to calculate distances of astronomical objects

Have you ever read “How we calculate distance of astronomical objects (like distant galaxies, stars, black holes, planets, etc.)”

{ If no then click this link-

Cause you can only understand this if you know about this. }

If so, then proceed with this article.

Here’s a further approach to calculate astronomical distances (distance of astronomical objects like distant galaxies, stars, black holes, planets, etc.)

Actually, by this we can calculate astronomical distances back in time.

But remember this is hypothetical it doesn’t have any proof.

This is given by Nikhil Rathore

So, without wasting much time lets begin with this.

Distance Time

By: Nikhil Rathore

When we calculate the distance of any astronomical object (say like any far galaxy, star,planet, etc) which is moving with respect to us. Then we estimate the light coming from it to us, to calculate its distance from us. But since that astronomical object is at some distance from us, then light will also going to take some time from it to reach us.

In that time [time taken by light from it (astronomical object) to reach us] might that object be able to move itself to some other distance from us (as it is moving with respect to us). Then in this case we are not calculating its distance from us at present, but rather we are calculating its distance from us back in time i.e. the time when that object emit that light which are received by us at present to calculate its distance.

As we are calculating its distance from us back in time so one can write the calculated distance like this:

____(Distance calculated by us) at _____ (time taken by light from it to reach us) back in time.

As we calculate its distance from us back in time hence this is known as distance time.

Explained using example of Andromeda galaxy-

Like andromeda galaxy is coming towards us at a very fast speed i.e. it is moving with respect to us. The present distance of Andromeda from us is 2.5 million light years. We calculate this distance by estimating the light coming from it to us. But since light will going to take some time from it to reach us. Hence it(light) from Andromeda will going to take some time from it to reach us. Since Andromeda is very far from us then light will also going to take a huge time from it to reach us (say light will take approximately 2.5 million years from Andromeda to reach us). In that time might Andromeda has come closer to us or might have moved some other distance from us (as Andromeda is coming towards us at a very fast speed or I can say it is moving with respect to us),then the calculated distance of Andromeda from us might be uncertain, or I can say that we are not calculating the distance of Andromeda from us at present but rather we are calculating its distance from us back in time.

So one can write the calculated distance of Andromeda from us like this:

2.5 million light years at 2.5 million years back in time.

As we are calculating its distance from us back in time hence this is known as distance time.

Well this is just an explained summary however you can access to the full article in the link.

Link:

A further approach to calculate distances of astronomical objects (like distant galaxies, stars, etc.)

Further approach to calculate distances of astronomical objects

Have you ever read “How we calculate distance of astronomical objects (like distant galaxies, stars, black holes, planets, etc.)”

{ If no then click this link-

Cause you can only understand this if you know about this. }

If so, then proceed with this article.

Here’s a further approach to calculate astronomical distances (distance of astronomical objects like distant galaxies, stars, black holes, planets, etc.)

Actually, by this we can calculate astronomical distances back in time.

But remember this is hypothetical it doesn’t have any proof.

This is given by Nikhil Rathore

So, without wasting much time lets begin with this.

Distance Time

By: Nikhil Rathore

When we calculate the distance of any astronomical object (say like any far galaxy, star,planet, etc) which is moving with respect to us. Then we estimate the light coming from it to us, to calculate its distance from us. But since that astronomical object is at some distance from us, then light will also going to take some time from it to reach us.

In that time [time taken by light from it (astronomical object) to reach us] might that object be able to move itself to some other distance from us (as it is moving with respect to us). Then in this case we are not calculating its distance from us at present, but rather we are calculating its distance from us back in time i.e. the time when that object emit that light which are received by us at present to calculate its distance.

As we are calculating its distance from us back in time so one can write the calculated distance like this:

____(Distance calculated by us) at _____ (time taken by light from it to reach us) back in time.

As we calculate its distance from us back in time hence this is known as distance time.

Explained using example of Andromeda galaxy-

Like andromeda galaxy is coming towards us at a very fast speed i.e. it is moving with respect to us. The present distance of Andromeda from us is 2.5 million light years. We calculate this distance by estimating the light coming from it to us. But since light will going to take some time from it to reach us. Hence it(light) from Andromeda will going to take some time from it to reach us. Since Andromeda is very far from us then light will also going to take a huge time from it to reach us (say light will take approximately 2.5 million years from Andromeda to reach us). In that time might Andromeda has come closer to us or might have moved some other distance from us (as Andromeda is coming towards us at a very fast speed or I can say it is moving with respect to us),then the calculated distance of Andromeda from us might be uncertain, or I can say that we are not calculating the distance of Andromeda from us at present but rather we are calculating its distance from us back in time.

So one can write the calculated distance of Andromeda from us like this:

2.5 million light years at 2.5 million years back in time.

As we are calculating its distance from us back in time hence this is known as distance time.

Well this is just an explained summary however you can access to the full article in the link.

Link:

A further approach to calculate distances of astronomical objects (like distant galaxies, stars, etc.)

Further approach to calculate distances of astronomical objects

Have you ever read “How we calculate distance of astronomical objects (like distant galaxies, stars, black holes, planets, etc.)”

{ If no then click this link-

Cause you can only understand this if you know about this. }

If so, then proceed with this article.

Here’s a further approach to calculate astronomical distances (distance of astronomical objects like distant galaxies, stars, black holes, planets, etc.)

Actually, by this we can calculate astronomical distances back in time.

But remember this is hypothetical it doesn’t have any proof.

This is given by Nikhil Rathore

So, without wasting much time lets begin with this.

Distance Time

By: Nikhil Rathore

When we calculate the distance of any astronomical object (say like any far galaxy, star,planet, etc) which is moving with respect to us. Then we estimate the light coming from it to us, to calculate its distance from us. But since that astronomical object is at some distance from us, then light will also going to take some time from it to reach us.

In that time [time taken by light from it (astronomical object) to reach us] might that object be able to move itself to some other distance from us (as it is moving with respect to us). Then in this case we are not calculating its distance from us at present, but rather we are calculating its distance from us back in time i.e. the time when that object emit that light which are received by us at present to calculate its distance.

As we are calculating its distance from us back in time so one can write the calculated distance like this:

____(Distance calculated by us) at _____ (time taken by light from it to reach us) back in time.

As we calculate its distance from us back in time hence this is known as distance time.

Explained using example of Andromeda galaxy-

Like andromeda galaxy is coming towards us at a very fast speed i.e. it is moving with respect to us. The present distance of Andromeda from us is 2.5 million light years. We calculate this distance by estimating the light coming from it to us. But since light will going to take some time from it to reach us. Hence it(light) from Andromeda will going to take some time from it to reach us. Since Andromeda is very far from us then light will also going to take a huge time from it to reach us (say light will take approximately 2.5 million years from Andromeda to reach us). In that time might Andromeda has come closer to us or might have moved some other distance from us (as Andromeda is coming towards us at a very fast speed or I can say it is moving with respect to us),then the calculated distance of Andromeda from us might be uncertain, or I can say that we are not calculating the distance of Andromeda from us at present but rather we are calculating its distance from us back in time.

So one can write the calculated distance of Andromeda from us like this:

2.5 million light years at 2.5 million years back in time.

As we are calculating its distance from us back in time hence this is known as distance time.

Well this is just an explained summary however you can access to the full article in the link.

Link:

A further approach to calculate distances of astronomical objects (like distant galaxies, stars, etc.)

Further approach to calculate distances of astronomical objects

Have you ever read “How we calculate distance of astronomical objects (like distant galaxies, stars, black holes, planets, etc.)”

{ If no then click this link-

Cause you can only understand this if you know about this. }

If so, then proceed with this article.

Here’s a further approach to calculate astronomical distances (distance of astronomical objects like distant galaxies, stars, black holes, planets, etc.)

Actually, by this we can calculate astronomical distances back in time.

But remember this is hypothetical it doesn’t have any proof.

This is given by Nikhil Rathore

So, without wasting much time lets begin with this.

Distance Time

By: Nikhil Rathore

When we calculate the distance of any astronomical object (say like any far galaxy, star,planet, etc) which is moving with respect to us. Then we estimate the light coming from it to us, to calculate its distance from us. But since that astronomical object is at some distance from us, then light will also going to take some time from it to reach us.

In that time [time taken by light from it (astronomical object) to reach us] might that object be able to move itself to some other distance from us (as it is moving with respect to us). Then in this case we are not calculating its distance from us at present, but rather we are calculating its distance from us back in time i.e. the time when that object emit that light which are received by us at present to calculate its distance.

As we are calculating its distance from us back in time so one can write the calculated distance like this:

____(Distance calculated by us) at _____ (time taken by light from it to reach us) back in time.

As we calculate its distance from us back in time hence this is known as distance time.

Explained using example of Andromeda galaxy-

Like andromeda galaxy is coming towards us at a very fast speed i.e. it is moving with respect to us. The present distance of Andromeda from us is 2.5 million light years. We calculate this distance by estimating the light coming from it to us. But since light will going to take some time from it to reach us. Hence it(light) from Andromeda will going to take some time from it to reach us. Since Andromeda is very far from us then light will also going to take a huge time from it to reach us (say light will take approximately 2.5 million years from Andromeda to reach us). In that time might Andromeda has come closer to us or might have moved some other distance from us (as Andromeda is coming towards us at a very fast speed or I can say it is moving with respect to us),then the calculated distance of Andromeda from us might be uncertain, or I can say that we are not calculating the distance of Andromeda from us at present but rather we are calculating its distance from us back in time.

So one can write the calculated distance of Andromeda from us like this:

2.5 million light years at 2.5 million years back in time.

As we are calculating its distance from us back in time hence this is known as distance time.

Well this is just an explained summary however you can access to the full article in the link.

Link:

A further approach to calculate distances of astronomical objects (like distant galaxies, stars, etc.)

Further approach to calculate distances of astronomical objects

Have you ever read “How we calculate distance of astronomical objects (like distant galaxies, stars, black holes, planets, etc.)”

{ If no then click this link-

Cause you can only understand this if you know about this. }

If so, then proceed with this article.

Here’s a further approach to calculate astronomical distances (distance of astronomical objects like distant galaxies, stars, black holes, planets, etc.)

Actually, by this we can calculate astronomical distances back in time.

But remember this is hypothetical it doesn’t have any proof.

This is given by Nikhil Rathore

So, without wasting much time lets begin with this.

Distance Time

By: Nikhil Rathore

When we calculate the distance of any astronomical object (say like any far galaxy, star,planet, etc) which is moving with respect to us. Then we estimate the light coming from it to us, to calculate its distance from us. But since that astronomical object is at some distance from us, then light will also going to take some time from it to reach us.

In that time [time taken by light from it (astronomical object) to reach us] might that object be able to move itself to some other distance from us (as it is moving with respect to us). Then in this case we are not calculating its distance from us at present, but rather we are calculating its distance from us back in time i.e. the time when that object emit that light which are received by us at present to calculate its distance.

As we are calculating its distance from us back in time so one can write the calculated distance like this:

____(Distance calculated by us) at _____ (time taken by light from it to reach us) back in time.

As we calculate its distance from us back in time hence this is known as distance time.

Explained using example of Andromeda galaxy-

Like andromeda galaxy is coming towards us at a very fast speed i.e. it is moving with respect to us. The present distance of Andromeda from us is 2.5 million light years. We calculate this distance by estimating the light coming from it to us. But since light will going to take some time from it to reach us. Hence it(light) from Andromeda will going to take some time from it to reach us. Since Andromeda is very far from us then light will also going to take a huge time from it to reach us (say light will take approximately 2.5 million years from Andromeda to reach us). In that time might Andromeda has come closer to us or might have moved some other distance from us (as Andromeda is coming towards us at a very fast speed or I can say it is moving with respect to us),then the calculated distance of Andromeda from us might be uncertain, or I can say that we are not calculating the distance of Andromeda from us at present but rather we are calculating its distance from us back in time.

So one can write the calculated distance of Andromeda from us like this:

2.5 million light years at 2.5 million years back in time.

As we are calculating its distance from us back in time hence this is known as distance time.

Well this is just an explained summary however you can access to the full article in the link.

Link:

A further approach to calculate distances of astronomical objects (like distant galaxies, stars, etc.)

Further approach to calculate distances of astronomical objects

Have you ever read “How we calculate distance of astronomical objects (like distant galaxies, stars, black holes, planets, etc.)”

{ If no then click this link-

Cause you can only understand this if you know about this. }

If so, then proceed with this article.

Here’s a further approach to calculate astronomical distances (distance of astronomical objects like distant galaxies, stars, black holes, planets, etc.)

Actually, by this we can calculate astronomical distances back in time.

But remember this is hypothetical it doesn’t have any proof.

This is given by Nikhil Rathore

So, without wasting much time lets begin with this.

Distance Time

By: Nikhil Rathore

When we calculate the distance of any astronomical object (say like any far galaxy, star,planet, etc) which is moving with respect to us. Then we estimate the light coming from it to us, to calculate its distance from us. But since that astronomical object is at some distance from us, then light will also going to take some time from it to reach us.

In that time [time taken by light from it (astronomical object) to reach us] might that object be able to move itself to some other distance from us (as it is moving with respect to us). Then in this case we are not calculating its distance from us at present, but rather we are calculating its distance from us back in time i.e. the time when that object emit that light which are received by us at present to calculate its distance.

As we are calculating its distance from us back in time so one can write the calculated distance like this:

____(Distance calculated by us) at _____ (time taken by light from it to reach us) back in time.

As we calculate its distance from us back in time hence this is known as distance time.

Explained using example of Andromeda galaxy-

Like andromeda galaxy is coming towards us at a very fast speed i.e. it is moving with respect to us. The present distance of Andromeda from us is 2.5 million light years. We calculate this distance by estimating the light coming from it to us. But since light will going to take some time from it to reach us. Hence it(light) from Andromeda will going to take some time from it to reach us. Since Andromeda is very far from us then light will also going to take a huge time from it to reach us (say light will take approximately 2.5 million years from Andromeda to reach us). In that time might Andromeda has come closer to us or might have moved some other distance from us (as Andromeda is coming towards us at a very fast speed or I can say it is moving with respect to us),then the calculated distance of Andromeda from us might be uncertain, or I can say that we are not calculating the distance of Andromeda from us at present but rather we are calculating its distance from us back in time.

So one can write the calculated distance of Andromeda from us like this:

2.5 million light years at 2.5 million years back in time.

As we are calculating its distance from us back in time hence this is known as distance time.

Well this is just an explained summary however you can access to the full article in the link.

Link:

A further approach to calculate distances of astronomical objects (like distant galaxies, stars, etc.)

Further approach to calculate distances of astronomical objects

Have you ever read “How we calculate distance of astronomical objects (like distant galaxies, stars, black holes, planets, etc.)”

{ If no then click this link-

Cause you can only understand this if you know about this. }

If so, then proceed with this article.

Here’s a further approach to calculate astronomical distances (distance of astronomical objects like distant galaxies, stars, black holes, planets, etc.)

Actually, by this we can calculate astronomical distances back in time.

But remember this is hypothetical it doesn’t have any proof.

This is given by Nikhil Rathore

So, without wasting much time lets begin with this.

Distance Time

By: Nikhil Rathore

When we calculate the distance of any astronomical object (say like any far galaxy, star,planet, etc) which is moving with respect to us. Then we estimate the light coming from it to us, to calculate its distance from us. But since that astronomical object is at some distance from us, then light will also going to take some time from it to reach us.

In that time [time taken by light from it (astronomical object) to reach us] might that object be able to move itself to some other distance from us (as it is moving with respect to us). Then in this case we are not calculating its distance from us at present, but rather we are calculating its distance from us back in time i.e. the time when that object emit that light which are received by us at present to calculate its distance.

As we are calculating its distance from us back in time so one can write the calculated distance like this:

____(Distance calculated by us) at _____ (time taken by light from it to reach us) back in time.

As we calculate its distance from us back in time hence this is known as distance time.

Explained using example of Andromeda galaxy-

Like andromeda galaxy is coming towards us at a very fast speed i.e. it is moving with respect to us. The present distance of Andromeda from us is 2.5 million light years. We calculate this distance by estimating the light coming from it to us. But since light will going to take some time from it to reach us. Hence it(light) from Andromeda will going to take some time from it to reach us. Since Andromeda is very far from us then light will also going to take a huge time from it to reach us (say light will take approximately 2.5 million years from Andromeda to reach us). In that time might Andromeda has come closer to us or might have moved some other distance from us (as Andromeda is coming towards us at a very fast speed or I can say it is moving with respect to us),then the calculated distance of Andromeda from us might be uncertain, or I can say that we are not calculating the distance of Andromeda from us at present but rather we are calculating its distance from us back in time.

So one can write the calculated distance of Andromeda from us like this:

2.5 million light years at 2.5 million years back in time.

As we are calculating its distance from us back in time hence this is known as distance time.

Well this is just an explained summary however you can access to the full article in the link.

Link: