18.
Picture it this way. If a wagon wheel had 2 spaces, it is easy to see that it would have two spokes, say, top and bottom. Adding another spoke would block off another space. From this idea, you can see that the number of spaces must equal the number of spokes.
360 / 30 = 12 , so 12 spokes in that wheel.
The angle is pi/4 radian. If you are at an early stage in studying mathematics, that is 45 degrees.
There are 360 degrees in a circle, so all you have to do is divide 360 by 15 and you get 24 degrees between each spoke.
Each angle is 360/48 = 7.5 degrees
This completely depends on the wheel. The most common number of spokes per wheel is 36. Some better wheels have 32. Higher performance wheels have even less.
A wheel with 12 spaces will have 12 spokes.
A wheel with 64 spokes will have 64 spaces between the spokes.
There would be 20 spokes with 20 spaces. Picture each space as if it was a flag and each spoke as a flagpole.
A wheel with 10 spokes will have 10 spaces between the spokes.
"Spokes" are the things that branch out from the centre of wheels to the outside edge of the wheel, to stabilise them. So wagon spokes are the things that branch out of wagon wheel centres (usually wooden, in this case). Bicycle wheels also have spokes.
"Spokes" are the things that branch out from the centre of wheels to the outside edge of the wheel, to stabilise them. So wagon spokes are the things that branch out of wagon wheel centres (usually wooden, in this case). Bicycle wheels also have spokes.
sprag
18.4 inches
360 / 30 = 12 , so 12 spokes in that wheel.
The angle is pi/4 radian. If you are at an early stage in studying mathematics, that is 45 degrees.
There are 360 degrees in a circle, so all you have to do is divide 360 by 15 and you get 24 degrees between each spoke.
Then the wheel would collapse. Which would happen some time Before all the spokes had gone.