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To Determine The Mechanical Advantage, Velocity Ratio & Efficiency of Screw Jack. Apparatus

The document describes different types of jacks used to lift heavy loads, including mechanical jacks, hydraulic jacks, pneumatic jacks, and screw jacks. It then outlines the procedure and calculations to determine the mechanical advantage, velocity ratio, and efficiency of a screw jack, including the use of weights, hanger, and thread measurements. Precautions and comments on the experiment are also noted.

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Hammadraza
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74 views3 pages

To Determine The Mechanical Advantage, Velocity Ratio & Efficiency of Screw Jack. Apparatus

The document describes different types of jacks used to lift heavy loads, including mechanical jacks, hydraulic jacks, pneumatic jacks, and screw jacks. It then outlines the procedure and calculations to determine the mechanical advantage, velocity ratio, and efficiency of a screw jack, including the use of weights, hanger, and thread measurements. Precautions and comments on the experiment are also noted.

Uploaded by

Hammadraza
Copyright
© © All Rights Reserved
We take content rights seriously. If you suspect this is your content, claim it here.
Available Formats
Download as PDF, TXT or read online on Scribd
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Experiment No.

02
To determine the Mechanical Advantage ,Velocity Ratio & Efficiency of screw jack.

Apparatus:

-screw jack

-weights

-hanger

-thread

Jack (device):

A jack is a mechanical device used to lift heavy loads or apply great forces.

Mechanical jack:

A mechanical jack is a device which lifts heavy equipment. The most common form is a car
jack, floor jack or garage jack which lifts vehicles so that maintenance can be performed. Car
jacks usually use mechanical advantage to allow a human to lift a vehicle by manual force alone.
More powerful jacks use hydraulic power to provide more lift over greater distances. Mechanical
jacks are usually rated for a maximum lifting capacity (for example, 1.5 tons or 3 tons)

Hydraulic jack:

A hydraulic jack uses a fluid, which is incompressible, that is forced into a cylinder by a pump
plunger. Oil is used since it is self lubricating and stable. When the plunger pulls back, it draws
oil out of the reservoir through a suction check valve into the pump chamber. When the plunger
moves forward, it pushes the oil through a discharge check valve into the cylinder. The suction
valve ball is within the chamber and opens with each draw of the plunger. The discharge valve
ball is outside the chamber and opens when the oil is pushed into the cylinder. At this point the
suction ball within the chamber is forced shut and oil pressure builds in the cylinder.

Pneumatic jack:

A pneumatic jack is a hydraulic jack that is actuated by compressed air - for example, air from
a compressor - instead of human work. This eliminates the need for the user to actuate the
hydraulic mechanism, saving effort and potentially increasing speed. Sometimes, such jacks are
also able to be operated by the normal hydraulic actuation method, thereby retaining
functionality, even if a source of compressed air is not available.
Screw jack:

It is the most important and 90% used jack because it has ability of self locking. It is
used to lift houses from foundation. The screw is pushed upward until l desired height is
reached.

Procedure:
Calculations & observations:

M.A= W/P

V.R=π(D+d/2)/p where p=pitch of the threads of the screw

Efficiency= M.A/V.R

S/No. Weight Effort M.A=W/P Velocity Efficiency


W(N) P(N) Ratio %

Precautions:

Comments:

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