How do you calculate lifting power?
Let us calculate the work done in lifting an object of mass m through a height h. If the object is lifted straight up at constant speed, then the force needed to lift it is equal to its weight mg. The work done on the mass is then W = Fd = mgh.
How much weight can a 1/2 hp motor lift?
A 1/2 horsepower garage door opener can lift approximately 300 pounds, which is the average weight of a two-car steel door. A one-horsepower opener can easily lift approximately 400 pounds. The greater the horsepower, the faster the opener can lift the door, although some are designed to lift faster than others.
How do you calculate the force of a motor?
The motor will drive a belt the the object is fixed to the belt. To calculate the force required to move the object: F = m * g *u , F = force, m = mass of object, g = gravity constant, u = friction. F = 10 kg * 9,82m/s2 * 0,1 F = 9,82 N to push the object.
How do you calculate work when lifting an object?
As you are lifting the object you are doing work on the object. The work W done on an object by a constant force is defined as W = F·d. It is equal to the magnitude of the force, multiplied by the distance the object moves in the direction of the force.
How much can an electric motor lift?
This means with 1 hp, you can lift about 550 lbs (250 kg) at a rate of 1 ft/sec, 1100 lbs at a rate of 0.5 ft/sec, 225 lb at a rate of 2 ft/sec, 1 lb at a rate of 550 ft/sec, and so on.
How much weight can a 3/4 hp motor lift?
A middle-range, 1/2-horsepower opener is most common and is intended for doors ranging from 150 to 300 lbs. The 3/4-horsepower motor is powerful enough for a large, heavy, commercial door weighing over 400 lbs.
How much weight can a 12V DC motor lift?
Weight: 100 gm(Approx.) RPM: 100 Operating Voltage: 12V DC Gearbox: Attached Plastic (spur)Gearbox Shaft diameter: 6mm Shaft Length: 21 mm Torque: 1.2 Kg-cm. No-load current = 60 mA(Max) Load current = 300 mA(Max).
How much weight can a 1 hp motor lift?
The constant 1 horsepower equals 550 foot-pounds per second. In other words, 1 horsepower is the amount of work required to move a load of 550 pounds over 1 foot, in 1 second.
How do you calculate lifting torque?
To calculate load torque, multiply the force (F) by the distance away from the rotational axis, which is the radius of the pulley (r). If the mass of the load (blue box) is 20 Newtons, and the radius of the pulley is 5 cm away, then the required torque for the application is 20 N x 0.05 m = 1 Nm.
How do you calculate the maximum torque of a motor?
Calculate torque (T) using the formula T = 5,252 x horsepower/rpm. The results are measured in pound-feet. For example, if you have a 40-horsepower motor designed to operate at a peak of 1,200 rpm, the formula would be T = (5,252 x 40)/1200 = 175.07 lb. -feet.
How do you calculate the stall torque of a motor?
Ohm’s Law states that current is equal to the supplied voltage divided by the resistance. This would be the starting/stall current. If the motor’s torque constant (Kt) is known you can take Kt* the current and determine the starting/stall torque.
What is the formula for calculating work?
Physicists provide an exact mathematical definition of their notion of work. In words: Work is equal to the force that is exerted times the distance over which it is exerted. In equation form: work (joules) = force (newtons) x distance (meters), where a joule is the unit of work, as defined in the following paragraph.
What is the equation to calculate work done?
Work can be calculated with the equation: Work = Force × Distance. The SI unit for work is the joule (J), or Newton • meter (N • m). One joule equals the amount of work that is done when 1 N of force moves an object over a distance of 1 m.
What is the formula for calculating power?
Power equals work (J) divided by time (s). The SI unit for power is the watt (W), which equals 1 joule of work per second (J/s). Power may be measured in a unit called the horsepower. One horsepower is the amount of work a horse can do in 1 minute, which equals 745 watts of power.