You can connect a PGA (Pin Grid Array) or PLCC (Plastic Leaded Chip Carrier) component to a zero insertion force (ZIF) socket. These components have pins on the package that can easily slide into the ZIF socket without requiring any force for insertion.
zero insertion force sockets (see page 178 in A+ Guide to Managing and Maintaining Your PC) "PGA, SPGA, and LGA sockets are all square or nearly square. So that even force is applied when inserting the processor in the socket, all current processor sockets have a lever on the side of the socket. These sockets are called zero insertion force (ZIF) sockets, and this lever is used to lift the processor up and out of the socket. Push the lever down and the processor moves into its pin or land connectors with equal force over the entire housing."
No, the horizontal component of a force is directly related to the magnitude of the force. Increasing the horizontal component of the force would require increasing the magnitude of the force itself.
The horizontal component of the normal force acts as the centripetal force when a curved road is banked.
certainly. The force vector can be resolved into one component parallel to the motion of the object under force and another component perpendicular to the motion. The parallel component does the work; the perpendicular component does no work
A component force is a single force in a system that acts in a specific direction, often representing a part of a larger force that is broken down into its horizontal and vertical components. These component forces are calculated to analyze forces in a system in a simplified manner.
ZIF (Zero Insertion Force)
Zero insertion force socket
zero insertion force sockets
Zero Insertion Force socket, the ZIF socket was designed by Intel and includes a small lever to insert and remove the computer processor.
Zero Insertion Force (a socket normally used with electronic chips so they dont have to be soldered - the heat can damage them)
ZIF or "Zero Insertion Force" sockets allow the socket to open to receive the pin without pressure and then close around the pin to give a good, solid connection.
"ZIF" is an anconym for "Zero Insersion Force". For any processor, or other integrated circuit designed for insertion into a socket, the force required to insert or remove it is proportional to the number of pins on the chip. As each pin needs a secure connection to it's socket, the force required on modern processors, having close to a thousand pins; to insert into or remove from a socket reliably and without damage; would be extremely high and would likely cause physical damage if done by hand. A ZIF socket utilizes a clamping mechanism whereby the socket contacts can be opened using a lever. This allows a processor, with hundreds of fragile pins, to simply be dropped into the socket with no force. Then, the ZIF socket is clamped or "locked" using the lever which firmly clamps all pins tightly. In this manner, a ZIF socket makes difficult and potentially damaging insertion or removal of a processor or other integrated circuit, a simple, easy, and safe task.
zero insertion force sockets (see page 178 in A+ Guide to Managing and Maintaining Your PC) "PGA, SPGA, and LGA sockets are all square or nearly square. So that even force is applied when inserting the processor in the socket, all current processor sockets have a lever on the side of the socket. These sockets are called zero insertion force (ZIF) sockets, and this lever is used to lift the processor up and out of the socket. Push the lever down and the processor moves into its pin or land connectors with equal force over the entire housing."
The lever doesn't lift the processor out of the socket; it takes the shearing force off of the processor pins inside of the holes, so that the processor can be lifted out, or inserted, with no pressure necessary. When you lower the lever on a ZIF socket, the pins are clamped down on under the socket plastic housing.
No, the horizontal component of a force is directly related to the magnitude of the force. Increasing the horizontal component of the force would require increasing the magnitude of the force itself.
LIF sockets stand for low insertion force. LIF sockets are sockets commonly used for early generation computer processors. LIF is used to provide an "interference fit" between two components (a plug and a socket) so that a small amount of force is required to engage them and fully use.
The horizontal component of the normal force acts as the centripetal force when a curved road is banked.