rev = 1/60 * 2 * pi * rad/s
To calculate the force on the fan blade, we first convert the weight from ounces to pounds (3 ounces = 0.1875 pounds). Then, we use the formula: force (in pounds) = weight (in pounds) x radius (in feet) x angular velocity squared (in rad/s). Given the radius of 15 inches (convert to feet by dividing by 12), and an angular velocity of 900 rpm (convert to rad/s by multiplying by 2π/60), we can calculate the force on the fan blade.
Wf - Wi = a*t, where Wi and Wf are the initial and final angular velocities, respectively, a is the angular acceleration, and t is time. So, a*t = 15.4 rad/s - 8.5 rad/s = 6.9 rad/s, thus a = 6.9 rad/s / 5.2 s = 1.3 rad/s2.
The linear speed of the tire is given by v = ωr, where v is the linear speed, ω is the angular velocity, and r is the radius. Solving for ω, we get ω = v/r = 32.0m/s / 0.420m = 76.2 rad/s. To convert this to rev/min, we use the conversion factor 1 rev = 2π radians and 1 min = 60 s, so ω in rev/min = (76.2 rad/s * 60 s/min) / (2π rad/rev) ≈ 726 rev/min.
To calculate burst RPM (rotations per minute), you need to know the burst speed of the machine in revolutions per second. You can then multiply this value by 60 to convert it to RPM. The formula for calculating burst RPM is: Burst RPM = Burst speed (revolutions per second) * 60.
[ T-1 ] . Reciprocal time, from "degrees per second" .The angle part of it is dimensionless.
ex. convert 136rpm to rad/s 136rpm x 2pie =854.5132018 divide 854. etc... to 60s u get 14.2 rad/s
1 revolution = 2π radians 1 minute = 60 seconds → 1 rpm = 1 revolution / 1 minute = 2π radians / 60 seconds = π/30 radians/seconds = π/30 rad per sec → to convert rpm to rad per sec multiply by π (pi) and divide by 30.
For starter, 1 rad/S = 0.159 rev/S
rads/s radians/second Usually its stated as rpm (rounds per minute) but it usually needs to be converted to rads/s for calculations. 1 rad/s= (1 rpm)*2*pi/60
To calculate the force on the fan blade, we first convert the weight from ounces to pounds (3 ounces = 0.1875 pounds). Then, we use the formula: force (in pounds) = weight (in pounds) x radius (in feet) x angular velocity squared (in rad/s). Given the radius of 15 inches (convert to feet by dividing by 12), and an angular velocity of 900 rpm (convert to rad/s by multiplying by 2π/60), we can calculate the force on the fan blade.
Convert 1150lb-ft to 1157.42Nm and 2000rpm to 209.439 rad/s Brake power= Torque x rotational speed= 242409 W
rpm is a large (while radian/second is a small) scale unit of circular displacement (rotation) while meter/second is that of linear displacement.according to the relationv=rw wherev = linear velocity (in m/s)w (omega) = angular velocity / circular velocity in (rpm or rad/sec)r = radius of the circle in which body is rotating.we can assume that rpm times radius becomes equal to meter per second.Badeekh Akbar
To find the distance traveled by a point on the edge of the wheel, we first need to calculate the average angular velocity. The wheel accelerates from 240 rpm to 360 rpm, so the average angular velocity is (240 + 360) / 2 = 300 rpm. Converting this to radians per second, we have 300 rpm × (2π rad / 1 min) × (1 min / 60 s) = 31.42 rad/s. The wheel travels for 6.5 seconds, so the total angular displacement is 31.42 rad/s × 6.5 s = 204.23 radians. The circumference of the wheel is π × diameter = π × 0.33 m ≈ 1.04 m. Therefore, the distance traveled is 204.23 radians × 0.33 m/radian ≈ 67.39 m.
1 rad = 180°/pi Example: 1.6 rad = 1.6(180°/pi) 1.6 rad = 2880°/pi
all you have to do is convert it..........
122 cubic feet to rpm??
1500g