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Give the formula of mechanical advantage of the six simple machine?
Mechanical advantage for the six simple machines are: Lever: Mechanical Advantage = Length of Effort Arm / Length of Load Arm Pulley: Mechanical Advantage = Number of ropes supporting the load Wheel and Axle: Mechanical Advantage = Radius of Wheel / Radius of Axle Inclined Plane: Mechanical Advantage = Length of Incline / Height of Incline Wedge: Mechanical Advantage = Length of Sloping Side / Thickness of Wedge Screw: Mechanical Advantage = Circumference of the screw / Pitch of the screw
What factor must be increased to give a machine a mechanical advantage greater then one?
To give a machine a mechanical advantage greater than one, the effort force must be increased relative to the resistance force. This can be achieved by using a longer lever arm, applying a greater force, or utilizing a different type of simple machine that multiplies force, such as a pulley system.
What factor must be increased to give a machine advantage greater then 1?
To give a machine an advantage greater than 1, the input force must be increased compared to the output force. This can be achieved by increasing either the input force or by decreasing the output force. The mechanical advantage is calculated by dividing the output force by the input force.
What are the characteristics of a simple machine?
Simple machines are basic mechanical devices that do not contain any moving parts. They are used to make work easier by amplifying or redirecting force. The six types of simple machines are the lever, inclined plane, wedge, screw, pulley, and wheel and axle.
Can a machine be useful even if its mechanical advantage is less than one explain and give an example?
Yes, a machine can still be useful even if its mechanical advantage is less than one. This can happen when the machine reduces the amount of force needed to perform a task, even though the output force is less than the input force. An example of this is a pulley system, where the force needed to lift an object is reduced by distributing the load over multiple ropes and pulleys.
What is the mechanical advantage of a machine which multiplies distance?
The mechanical advantage of the machine is"if you give small accelration , it will increase the speed of the engine... It is possible by mechanical
What is the unit of mechanical advantage?
Simple machines, such as a lever, inclined plane, or wheel and axle, give you a mechanical advantage.You calculate the mechanical advantage of a simple machine by dividing the output force by the input force.
Is it true a simple machine is one that always gives a mechanical advantage of 2?
Oh, what a lovely question! A simple machine is a device that helps make work easier by either changing the direction or amount of force needed. While some simple machines, like a lever or pulley, can provide a mechanical advantage of 2 or more, not all simple machines will have a fixed mechanical advantage. Each simple machine is unique and can provide different levels of mechanical advantage depending on its design and how it is used. Just like how every brushstroke on a canvas adds to the beauty of a painting, each simple machine plays its own special role in making tasks easier and more efficient.
Give the formula of mechanical advantage of the six simple machine?
Mechanical advantage for the six simple machines are: Lever: Mechanical Advantage = Length of Effort Arm / Length of Load Arm Pulley: Mechanical Advantage = Number of ropes supporting the load Wheel and Axle: Mechanical Advantage = Radius of Wheel / Radius of Axle Inclined Plane: Mechanical Advantage = Length of Incline / Height of Incline Wedge: Mechanical Advantage = Length of Sloping Side / Thickness of Wedge Screw: Mechanical Advantage = Circumference of the screw / Pitch of the screw
What factor must be increased to give a machine a mechanical advantage greater then one?
To give a machine a mechanical advantage greater than one, the effort force must be increased relative to the resistance force. This can be achieved by using a longer lever arm, applying a greater force, or utilizing a different type of simple machine that multiplies force, such as a pulley system.
Which factor must increase to give a machine a mechanical advantage greater than 1?
output force (:
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.
What factor must be increased to give a machine advantage greater then 1?
To give a machine an advantage greater than 1, the input force must be increased compared to the output force. This can be achieved by increasing either the input force or by decreasing the output force. The mechanical advantage is calculated by dividing the output force by the input force.
What are the characteristics of a simple machine?
Simple machines are basic mechanical devices that do not contain any moving parts. They are used to make work easier by amplifying or redirecting force. The six types of simple machines are the lever, inclined plane, wedge, screw, pulley, and wheel and axle.
How do you make levers stronger?
They don't, they just give you a mechanical advantage.
Can a machine be useful even if its mechanical advantage is less than one explain and give an example?
Yes, a machine can still be useful even if its mechanical advantage is less than one. This can happen when the machine reduces the amount of force needed to perform a task, even though the output force is less than the input force. An example of this is a pulley system, where the force needed to lift an object is reduced by distributing the load over multiple ropes and pulleys.
How do you increase the mechanical advantage of a wedge?
The spokes of a wheel are comparable to levers. Longer spokes give more mechanical advantage. Even in a wheel that is solid, and has no spokes, the greater the diameter, the greater the mechanical advantage.
