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  • Faithfull No.4 Plane and No.60.1/2 Plane
    Faithfull No.4 Plane and No.60.1/2 Plane
    This Faithfull Plane Set comes in a wooden storage box and provides the essentials you need for planing wood: 1 x No.4 Smoothing Plane, designed for smoothing and final finishing. Made with a quality grey cast iron body for strength and stability with precision ground base and sides for flatness and squareness. Machined seatings eliminate movement and blade judder. A lever cap with a brass locking screw secures the blade assembly and enables easy release for sharpening. Wooden handles and guidance knobs maximise user comfort. A solid brass blade adjustment nut completes the appeal of these traditional tools. Cutter Width: 50mm.Overall Length: 250mm. 1 x No.60 1/2 Block Plane with plane iron set at 13.5°. It is particularly effective on end grain and plastic laminates. Block planes are designed for end grain work or in any situation where a single-handed operation is required. The low angle cutter and fully adjustable mouth, from wide for coarse work to narrow for the fine shaving of awkward grain. Cutter Width: 35mm.Overall Length: 160mm.Additional Information:• Plane Type: Set
    Price: 50.95 € | Shipping*: 5.95 €
  • Draper Multirasp Plane
    Draper Multirasp Plane
    Non-clogging blade for fast cutting and shaping of hard and soft woods, laminates, plastics and soft metals. Diecast body with plastic handle. Blade length 255mm. Supplied with replaceable high carbon steel blade. Features and Benefits • Replaceable high carbon steel blade. • Non-clogging blade for fast cutting and shaping of hard and soft woods, laminates, plastics and soft metals. Contents 1 x Multi-Rasp Flat Wood Plane, 255mm
    Price: 14.95 € | Shipping*: 5.95 €
  • Sealey Block Plane
    Sealey Block Plane
    Cast iron body with hardened carbon steel cutting blade. Fully adjustable for depth of cut. Lateral and mouth adjustments for coarse and fine work. Lever, cam and screw adjusted cutter head. Machined, recessed sides for firm grip. Features & Benefits: • Cast iron body with hardened carbon steel cut blade. • Adjustable for depth of cut. • Lateral and mouth adjustments for coarse and fine work. • Lever, cam and screw adjusted cutter head. • Machined, recessed sides for firm grip. • Overall Length: 160mm, Blade Width: 35mm. • Model No. AK6092 Specifications: Model No AK6092 Blade Width(s): 35mm Brand: Sealey Length: 160mm Nett Weight: 0.66kg
    Price: 23.95 € | Shipping*: 5.95 €
  • Sealey Smoothing Plane
    Sealey Smoothing Plane
    Machined, cast iron body with chrome plated pressure plate. Hardened, carbon steel blade with brass nut for depth adjustment, and lever for lateral adjustment. Wooden handle and knob for added comfort. Features & Benefits: • Machined, cast iron body with chrome plated pressure plate. • Hardened, carbon steel blade with brass nut for depth adjustment, and lever for lateral adjustment. • Wooden handle and knob for added comfort. • Overall Length: 250mm, Blade Width: 50mm. • Model No. AK6093 Specifications: Model No AK6093 Blade Width(s): 50mm Brand: Sealey Length: 250mm Nett Weight: 1.80kg
    Price: 23.95 € | Shipping*: 5.95 €

  • 'How do you reflect a plane across the plane x1x3?'

    To reflect a plane across the plane x1x3, you can first find the equation of the mirror plane x1x3. Then, for each point on the original plane, you can find its reflection across the mirror plane by using the formula for reflecting a point across a plane. This involves finding the perpendicular distance from the point to the mirror plane and then using that distance to find the reflected point. By applying this process to all points on the original plane, you can obtain the reflected plane across the x1x3 plane.

  • How do you reflect a plane on the plane x1x3?

    To reflect a plane on the plane x1x3, you would first find the equation of the plane you want to reflect. Then, you would substitute x2 with -x2 in the equation to reflect it across the x1x3 plane. This means changing the sign of the coefficient of x2 in the equation of the plane. The resulting equation will be the reflection of the original plane across the x1x3 plane.

  • What is the diversity development field?

    The diversity development field focuses on creating and promoting inclusive environments within organizations. It involves implementing strategies and programs to support diversity, equity, and inclusion, as well as addressing issues related to bias, discrimination, and inequality. This field also encompasses training, education, and advocacy efforts to foster a culture of respect and belonging for individuals from diverse backgrounds. Overall, the diversity development field aims to create positive and equitable experiences for all members of an organization.

  • How do you determine a parallel plane to a given plane?

    To determine a parallel plane to a given plane, you can use the normal vector of the given plane. If the normal vector of the given plane is (a, b, c), then the parallel plane will have the same normal vector. You can then use this normal vector to find the equation of the parallel plane. If the given plane has the equation Ax + By + Cz + D = 0, then the parallel plane will have the equation Ax + By + Cz + K = 0, where K is a constant. This will ensure that the two planes are parallel to each other.

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  • Faithfull No.4 Plane and No.60.1/2 Plane Set
    Faithfull No.4 Plane and No.60.1/2 Plane Set
    This Faithfull Plane Set is supplied in 2 zip-up canvas carry bags, designed to protect the planes against damage during transport or when in storage. Provides the essentials you need for planing wood: 1 x No.4 Smoothing Plane, designed for smoothing and final finishing. Made with a quality grey cast iron body for strength and stability with precision ground base and sides for flatness and squareness. Machined seatings eliminate movement and blade judder. A lever cap with a brass locking screw secures the blade assembly and enables easy release for sharpening. Wooden handles and guidance knobs maximise user comfort. A solid brass blade adjustment nut completes the appeal of these traditional tools. Cutter Width: 50mm.Overall Length: 250mm. 1 x No.60 1/2 Block Plane has the plane iron set at 13.5°. It is particularly effective on end grain and plastic laminates. Block planes are designed for end grain work or in any situation where a single-handed operation is required. The low angle cutter and fully adjustable mouth, from wide for coarse work to narrow for the fine shaving of awkward grain. Cutter Width: 35mm.Overall Length: 160mm.Additional Information:• Plane Type: Set
    Price: 44.95 € | Shipping*: 5.95 €
  • Draper D204 Block Plane
    Draper D204 Block Plane
    Pressed steel body with a high carbon steel iron. Features and Benefits • Pressed steel body with a high carbon steel iron Contents 1 x Block Plane, 160mm
    Price: 10.95 € | Shipping*: 5.95 €
  • Draper D205 Block Plane
    Draper D205 Block Plane
    Pressed steel body with a high carbon steel iron. Features and Benefits • Pressed steel body with a high carbon steel iron Contents 1 x Block Plane, 135mm
    Price: 9.95 € | Shipping*: 5.95 €
  • Draper Hobbyist Smoothing Plane
    Draper Hobbyist Smoothing Plane
    Pressed steel body with high carbon steel iron. Features and Benefits • Pressed steel body with high carbon steel iron Contents 1 x Hobbyist Smoothing Plane, 235mm
    Price: 19.95 € | Shipping*: 5.95 €

  • How can one establish a parallel plane to the x1-x2 plane?

    To establish a parallel plane to the x1-x2 plane, one can use the equation of the x1-x2 plane, which is typically written as z = 0. To create a parallel plane, one can simply add or subtract a constant value from the right-hand side of the equation. For example, to create a parallel plane that is 3 units above the x1-x2 plane, the equation would be z = 3. This will create a new plane that is parallel to the x1-x2 plane and shifted vertically by 3 units.

  • What is the support vector of another plane in the same plane?

    The support vector of another plane in the same plane is the vector that is perpendicular to the plane. In other words, it is a vector that is orthogonal to the plane and lies entirely within the plane. This vector is important in defining the orientation and position of the plane in space.

  • How can one establish a plane parallel to the x1-x2 plane?

    To establish a plane parallel to the x1-x2 plane, one can choose any point not on the x1-x2 plane. Then, draw a line perpendicular to the x1-x2 plane from that point. This line will intersect the x1-x2 plane at a single point. Finally, construct a plane that is parallel to the x1-x2 plane and passes through the point where the perpendicular line intersects the x1-x2 plane.

  • How does the transition from an inclined plane to a horizontal plane occur?

    The transition from an inclined plane to a horizontal plane occurs gradually as the angle of inclination decreases. As the angle decreases, the force of gravity acting on the object becomes more perpendicular to the surface, reducing the component of the force that acts parallel to the plane. Eventually, when the angle reaches zero degrees, the plane becomes horizontal, and the force of gravity acts entirely perpendicular to the surface, causing the object to move along the horizontal plane.

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