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from your local Agricultural Extension Agent or other knowledgeable persons.
SHAKE WELL BEFORE USING.
Partially fill the spray tank/container with water. Add the desired amount of LIQUI-COP and continue filling the tank/container. If applied with other products, add LIQUI-COP last. Agitate the tank during mixing and application until tank is empty. A plastic or metal stirring stick should provide adequate agitation. Observe all cautions and limitations on labeling of all products used in mixtures. Start with clean equipment. Equipment should be flushed well with water after use.
APPLICATION: Fruits and Nuts: Mix specified rate in 1 gallon of water and apply 3 gallons of mixed solution to a small tree or bush, 6 gallons of mixed solution to a medium size tree, or 9 gallons of mixed solution to a large tree. Thoroughly spray tree to point of runoff, including upper and lower surfaces of foliage. Do not overspray. Do not mix more spray solution than needed. Vegetables: Mix specified rate in 1 gallon of water and apply 2 gallons of mixed solution per 1,000 sq. ft. (1 gallon of mixed solution per 500 sq. ft.) Miscellaneous: For herbs: Mix specified rate in 1 gallon of water and apply 2 gallons of mixed solution per 1,000 sq. ft. (1/2 gallon of mixed solution per 250 sq. ft.) For trees: Mix specified rate in 1 gallon of water and apply 3 gallons of mixed solution to a small tree, 6 gallons of mixed solution to a medium size tree, or 9 gallons of mixed solution to a large tree. Thoroughly spray tree to point of runoff, including upper
and lower surfaces of foliage. Do not overspray. Do not mix more spray solution than needed.
NOTE: This product may be reactive on metal and masonry surfaces such as galvanized roofing. AVOID contact with metal surfaces. Do not spray on cars, houses, lawn furniture, etc.
and lower surfaces of foliage. Do not overspray. Do not mix more spray solution than needed. I also have directions for specific nuts, fruits and vegetable.
A 15' round pool with a 48" wall has approximately 5300 gallons That same pool with a 52" wall, has 5800 gallons 5300 gallons of water with No / 0 salt, needs... About 150 lbs of salt, Or about 60 - 70 Kg's 3200 ppm of salt is what you're looking to achieve.
On the calculator there are conversions of capacity (gallons (US or UK) to liters, liters to gallons (Us), gallons(UK) but there are no conversions from ft^3 to m^3. However you have the basic conversions from in to cm, cm to in, yd to m and m to yd. That is all you need. To use the calculator to perform a conversion from ft to meters, you enter the number of feet, you press [SHIFT][8] (Conv). The calculator prompts you to enter a number between 01 and 40. Each number corresponds to a particular conversion. In this case you enter 03 For example convert 3 ft to meters. Enter 3 Press [SHIFT][8] (Conv) Prompt: CONVERSION Number 01--40 You enter 03 (ft to m) and press [=] Calculator displays 3 ft >m, and on the second line 0.9144 Thus 3 ft=0.9144 m Once you know how to convert one unit of length to another, you get the volume by raising conversion to the 3rd power. For this to work, you must convert all dimensions to the same unit.
It appears that you turn the dial to any setting from 1 to 13 depending upon how much water you want the timer to dispense. The numbers show relative amounts from 100 total gallons to 400 total gallons, then the timer shuts off.
Ha ha ha... this is for your High School class? V = 6000 gal * (1 ft^3 / 7.481 gal) = 802 ft^3..... h = 5.5 yd * (3 ft / 1 yd) = 16.5 ft..... Assuming a cylinder, V = pi * r^2 * h... r = (V / pi h)^0.5 = 15.5 ft * (1 yd / 3 ft) = 5.16 yd
When breaking oversize material the breaker is expected to break the material down the middle into two pieces. This is optimum production. If the operator has to re-position the breaker towards the edge of the rock and gradually downsize the material, production rate slows down. To assess what size of breaker will effectively handle this application, the size and hardness of the material must be known. If a 4 cu. yard piece of hard rock (20,000 psi or greater) needs to be broken in half you will require a 7,500-ft. lb. or larger breaker. If a 2 cu .yd. piece of limestone (20,000 psi or less) needs to be broken in half you will require a 3,000 - 5,000-ft. lb. breaker.
When trenching, the breaker is expected to fracture a solid mass of rock into manageable pieces. The size of the material could be 100's of cu.yds, and the energy will be quickly absorbed. This is why it is recommended to work from a bench so the rock has somewhere to break out. We recommend when trenching in limestone or medium hard rock, to use a 3,000 - 5,000-ft. lb. breaker. When working in hard material we recommend a 7,500 - 10,000-ft.lb. breaker, and if high production is critical, a 13,500-ft.lb. breaker would be beneficial.
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