You are shooting a 43 draw weight? I would say you are going to drop pretty significant after about 30 yds compared to a higher draw weight. Since the broadhead is only 125, it won't drop too much from a good 15 to 20 yds. Try shooting a little bit with a few different grained broadheads. See if you have a consistant shot group with at least 3 different grains. That should give you a general idea of how much your drop will be with that 125. Only way I know for you to determine it! anonymous You are shooting a 43 draw weight? I would say you are going to drop pretty significant after about 30 yds compared to a higher draw weight. Since the broadhead is only 125, it won't drop too much from a good 15 to 20 yds. Try shooting a little bit with a few different grained broadheads. See if you have a consistant shot group with at least 3 different grains. That should give you a general idea of how much your drop will be with that 125. Only way I know for you to determine it! anonymous
Not exactly sure but i believe when you pull back on the bowstring your giving it more potential energy that, when released, transfers more kinetic energy to the arrow allowing it to fly farther.
The word is nock. The nock (noun) is the notch in the end of an arrow. To nock (verb) means to place an arrow on the bowstringinpreparation for shooting.
The initial phase of drawing is hard until the let off phase of the bow comes into operation making it easier. When the bow is at full draw the holding weight will be much less than the weight delivered to the arrow. The gain in mechanical advantage when drawin and holding the bow is due to the pulleys or cams used in the bow.
the draw weight is how much strength it takes to pull it back which is equal to how much force is put into the arrow. so basically pulling back a 50 lb draw weight bow is equally as hard as lifting a 50 lb sack with one arm
http://www.dnr.sc.gov/regs/pdf/huntingregs.pdf No restrictions on draw weight in SC.
Your arrow should match the draw weight. In your case the "spine" or stiffness will be too much. Assuming the arrow was matched to begin with.
Draw an arrow pointing upwards for the tension force and an arrow pointing downwards for the weight of the elevator which will be its mass times gravity (mg). Also, draw another arrow pointing downwards for any mass that may be inside the elevator (another mass times gravity arrow but for a separate weight) and add that value to that of the weight of the elevator. Depending on the direction that the elevator is moving (up or down) draw another arrow respectively and label it "a" for acceleration.
Draw weight is the power the arrow is loosed at. Bows with more draw weight like long bows require very strong people to handle. The better the draw weight the further/harder the arrow flies eg: Arrows peircing chainmail... Hope this was the answere you were looking for. Enjoy...
There technically is not a required weight, however it is recommended that to have a compound bow set to at least 30-35lbs. It all depends on the placement of the arrow in the deer or animal. If you place an arrow in the lungs or heart of a deer, shooting it with a draw weight of 35lbs, it will most likely kill the deer.
You draw a plane and with a arrow pointing at the top labeled lift and a arrow pointing to the left labeled thrust and the right with another arrow pointing that way label it Drag and last the arrow pointing down with it labeled Gravity or Weight. All the arrows should be the same size.
It depends on the draw weight of the bow, and the weight of arrow you use
For off-the-shelf bows, it is currently the PSE Omen. The PSE X-Force Omen Pro shoots arrows at up to 366 feet per second under IBO (International Bowhunting Organization) rules. The 2nd fastest bow is currently the APA King Cobra at up to 362 fps. The New BowTech Insanity and several other models at rated at 355 fps. The speed is usually measured using a 350 grain arrow with the bow set up at a 70 lbs. draw weight and 30 inch draw length. In the real world shooting at lower draw weight and shorter draw length and using a heavier arrow like say a 400 or more grain, you would see more like 320 fps or less on such bows. Published speeds for bows are always IBO speeds based - as stated above - on 350 grain arrows, a 70 lb. draw weight and a 30 inch draw length with nothing else on the bow - no stabilizers, dampeners, sights etc.
There is no way to tell the velocity of an arrow based solely on the draw weight. There are many other factors that come into play such as the type of arrow, point, fletching, nocks, inserts, release, the bow's efficiency, and even temperature. However, a recurve will probably spit out an arrow at roughly 100-175 kph. Draw weight does play a part but the factors mentioned above are more important.
Draw the cyclopentene + H2. Draw the arrow(on top of the arrow type Pd). The result is a cyclopentane (not cyclopentene) For the reaction of Cyclopentene with Br is: Draw the cyclopentene + Br. Draw the arrow; the reaction is 1,2-bromocyclopentane.
IBO speed of all bows is determined using the same setup. All bows are bare, pulling 70 lbs. shooting a 350 grain arrow at a 30" draw. Its more of a market ploy than anything else. A real hunting bow after all the accessories are added can be 20 or 30 fps slower or more than advertised. It really depends on overall arrow weight, draw weight/length, and the amount of vibration dampening accessories on the bow. Worry more about which bow feels the best when shot rather than how fast it can go. The only difference in a slower bow and a faster bow is that when you miss, the faster arrow goes farther away.
the arrow you should choose depends on the draw lenght of the archer. when you go to an archery shop, take your bow and they will give you an arrow with a ruler on it, you draw the arrow in the bow and the shop owner will tell you how long you draw the arrow.
with a ruler dumbo