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Which compound machine consists of both fixed and moveable pulleys?
A compound machine that consists of both fixed and moveable pulleys is typically referred to as a block and tackle system. This system utilizes multiple pulleys to increase mechanical advantage and make it easier to lift heavy loads by distributing the force needed across several pulleys. The fixed pulleys remain stationary while the moveable pulleys adjust to accommodate the load.
If a block and tackle is a simple machine What mechanical advantage does it give the user and what does the user have to give up in exchange?
A block and tackle provides a mechanical advantage by trading distance for force. The user needs to exert less force to lift a heavier load, but they have to pull the rope a greater distance to accomplish the task.
Is a water globe a compound machine?
A water globe is not considered a compound machine. A compound machine is a device that consists of two or more simple machines working together to accomplish a task. A water globe typically operates as a simple, standalone object.
What is an example of a compound machine?
A bicycle is an example of a compound machine, as it consists of various simple machines like wheels and gears working together to enable its functionality.
Can a machine interconvert mechanical energy to hydralic energy?
Yes, a machine can convert mechanical energy into hydraulic energy (i.e., pump water up), and a machine can convert the hydraulic energy into mechanical energy. Some energy will be wasted in both cases, meaning that if you try to do this "back and forth" several times, the total energy available will decrease.
What do you need to know to calculate the machinical advantage of a compond machine?
To calculate the mechanical advantage of a compound machine, you need to know the input force applied to the machine, the output force produced by the machine, and the distance over which the input and output forces are exerted. By comparing the input force to the output force, you can determine the mechanical advantage of the compound machine.
How do you find the mechanical advantage of a compound machine?
you have to multiply the individual mechanical advantages of all the simple machines that make up the compound machine.
How do you find mechanical advantage of a compound machine?
you have to multiply the individual mechanical advantages of all the simple machines that make up the compound machine.
How do you find the mechanical advantage of compound machine?
you have to multiply the individual mechanical advantages of all the simple machines that make up the compound machine.
If you know the input distance and output distance of a machine which of the following can you calculate?
Type your answer here... The actual mechanical advantage.
How can you calculate the mechanical advantage of a simple machine?
because it has no brain
If you know the input distance and output distance of a machine which quantity can you calculate?
You can calculate the mechanical advantage of the machine.
What two things you you need to know to calculate mechanical advantage?
To calculate mechanical advantage, you need to know the effort force applied to the machine and the resistance force it is able to overcome. By dividing the resistance force by the effort force, you can determine the mechanical advantage of the machine.
How does the machanical advantage of a compound machine relate to the mechanical advantages of the simple machines that make the compound machine?
It is the product of those of the component parts
How do you calculate the mechanical advantage of a machine?
Mechanical advantage is calculated by dividing the output force of a machine by the input force required to operate it. The formula is MA = Output Force / Input Force. Mechanical advantage gives you an indication of how much a machine amplifies or reduces the input force.
How do you calculate input and output force?
To calculate input force, divide the output force by the mechanical advantage of the machine or system. Input force = Output force / Mechanical advantage. The output force is the force exerted by the machine, while the input force is the force applied to the machine.
What happens to the input or effort force when a simple machine has a mechanical advantage?
Whatever output force is required, you can divide it by the "mechanical advantage" to calculate the input force.
