How Do I Foreshorten and See Behind Limbs in My Drawings?

Draw the limbs of the type of tree you want to paint .then when satisfied ,the add theLeaves or what the tree is covered with, but allow areas for limbs to show thru the foliage.when foliage is added turn your results on the tree limbs to better outline them. Stan T.

1. Lemon tree repotting

I would recommend going with the large container and not have to worry about repotting. I am always nervous about repotting because the plant does have to deal with the shock and you have to get it right so as not to damage it. Also you have to time it right so the roots are not constrained by the size of the plant.

2. the tallest tree on earth?

I found this on the web. "The tallest living tree stands at 112 meters (367 feet, 6 in.), or five stories higher than the Statue of Liberty. It is a Mendocino Tree, a coast redwood (Sequoia sempervirens) found at Montgomery State Reserve near Ukiah, California, USA. It is estimated to be over 1000 years old. The tree was last measured in September 1998, and was also found to have a diameter of 3.14 m. (10 ft. 4 in.). It was declared the tallest tree in 1996. ".

3. Japanese bikes are fast and nimble, German bikes are reliable and durable, what are Harleys good for?

The best comparison is 69 Chevelle ss or a 08 toyota prius People fall in two groups nostalgic american muscle and tree hugging hippie fruitcake. Grow some balls!! Ride American

4. Does the Sun have any atmosphere?

Disclaimer: I am not sure if you meant this, but your question implies the Sun is a planet. It, of course, is a star and not a planet. Just wanted to make that clear.When you ask if the Sun has an atmosphere, you are actually asking a tricky question. What do you mean by atmosphere? How do you define the boundary of the Sun, above which anything is considered an atmosphere? This is pretty easy for planets like Earth since they have a nice solid surface. But the Sun is a giant ball of plasma heated to thousands of degrees. There's no easy or clear division between the "surface" and "atmosphere". Any discussion of the Sun's atmosphere involves defining what we mean by the surface of the Sun.That being said, astronomers have come up with (arbitrary) ways to define the surface of the Sun. One common metric is to use optical depth. Optical depth is a unitless number that defines one's ability to "see" through a gas (or plasma). An optical depth of 1 or higher means the gas is opaque and cannot be seen through. An optical depth less than one means the gas is transparent and can be seen through.However, when you have something the Sun or even fog, the optical depth varies with the distance you are looking into that object. I will talk about fog since it's familiar, but the same idea applies to the Sun's atmosphere. Say you are standing in a forrest and its very foggy out. There's a tree 1 meter away from you that you can see. You could measure your optical depth, $tau$, of the fog between you and tree and might find that $tau = 0.15$. Since $tau$ is less than one, that implies you can see the tree, but the value of $tau$ also implies how well you can see it. If $tau = 0$, there's nothing between you and the tree to impede your ability to see it. Let's say there's another tree that's 5 meters away. Now there's more fog between you and the tree and while you can still see it, it is harder to see it. The optical depth of the fog between you and the tree 5 meters away might be $tau = 0.75$. It's still less than one, implying the tree is visible, but because there's more fog between you and the tree, the optical depth is higher. Finally, there may be a tree 10 meters away with so much fog between you and the tree that the optical depth is $tau = 1.5$. You can not see this tree because there's too much fog in the way. Hopefully you now realize that anything which is at a distance where $tau > 1$ is not visible to you. That effectively defines a "surface" around you precisely when $tau = 1$. Anything beyond that point is not visible and anything closer is visible.If you are talking about the Sun, you can look at the Sun, but you will only see light which originates from a point where $tau