T = R x F
T = 0.5m x 15N
T = 7.5 N*m
Torque is equal to friction force (F) * radius (r). Torque is also equal to moment of inertia (I) * Angular acceleration (a). Angular acceleration is equal to rotational velocity * 2Pi/time, which is 2 seconds. So, F = IRa/r, or 45.63 Newtons
When you step on the brake pedal, a force is applied directly to a piston of area 'a'. The hydraulic fluid thus pressurized is directed to other pistons of area 'A' >'a' at each wheel which push the brake pads against the rotating disk attached to the wheel. Since A>a, the applied force is multiplied by the ratio A/a.
Applied physics can be seen in the movement of research tools into them home as consumer goods. The lasers in optical disk players are an example. My radio controlled wrist watch is another example. What about the computer on which I am typing this or the spectacles through which I am reading my monitor? All applied physics
The answer will depend on whether the axis isthrough the centre of the disk and perpendicular to its plane,a diameter of the disk, orsome other axis.Unless that information is provided, the answer is meaningless.
Known as the Miznay-Schardin effect, a section of metal is shaped into a projectile by the force of an explosion. Also known as a platter charge, a metal disk with explosives on one side is turned from a disk into a bullet when the explosives are detonated, and driven forward at high speed at the same time.
Torque is equal to friction force (F) * radius (r). Torque is also equal to moment of inertia (I) * Angular acceleration (a). Angular acceleration is equal to rotational velocity * 2Pi/time, which is 2 seconds. So, F = IRa/r, or 45.63 Newtons
The disc will slow down as a result of the friction applied by the force.
Diameter = 2*Radius So, in this case, diameter = 44 cm
When you step on the brake pedal, a force is applied directly to a piston of area 'a'. The hydraulic fluid thus pressurized is directed to other pistons of area 'A' >'a' at each wheel which push the brake pads against the rotating disk attached to the wheel. Since A>a, the applied force is multiplied by the ratio A/a.
If r is the radius of the disc, then pi*r2 square units.
The set points whose distance from the center of the circle that is less than the radius. A disk.
220Nm for Scenic, Grand scenic 280Nm
warped break disk
If the disk is circular, the area of one circular face is 112.72 X pi = 3.990 X 104 square kilometers, to the justified number of significant digits.
15 to 20 pouunds of torqe if you have a 10" or 12" disk. this is what it says in my manual 15 to 20 pouunds of torqe if you have a 10" or 12" disk. this is what it says in my manual
Dynamic disk get invalid or unreadable, as we all know, dynamic disk can not be recognized by Windows Home Edition. For example, dynamic disk applied in Windows XP Pro Edition, then, upgrade the OS to Windows 7 home, dynamic disk becomes invalid; accidentally power off when write data to dynamic disk; hardware environment changed.
The area of the sector is a fraction of the area of the whole disk. So, we need to find the area of the whole disk and then multiply by the ratio of the sector size to the disk. The ratio is 2/3 pi out of a disk that is 2 pi all around (like any circle). Twos cancel, "pi"s cancel, so the sector is 1/3 of the disk. The disk's area is pi times (the radius squared). Pi times four. Well, to avoid using irrational numbers, the disk's area is 4 pi. The sector is 1/3 of 4 pi square feet, which is 4/3 pi square feet.