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∙ 11y ago11/4 feet = 15 inches
(15 inches) x (32 rev/inch) = 480 rev
(480 rev) x (1 minute/150 rev) = 3.2 minutes = 3minutes 12seconds
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∙ 11y agoto convert revolutions per minute into the measure of degrees traveled, you would need to know for how long those revolutions were going on. revolutions per minute multiplied by the time it was turning gives you the degrees traveled. just like speed * time gives you distance, rotational speed * time gives you rotated distance
Distance travelled = 240*circumference 240*pi*70 = 52778.75658 or about 52779 cm
A point at a distance of x metres from the centre of an object travels through 2*pi*x metres for each revolution. So if the object is rotating at r revolutions per second, the point in question is travels through 2*pi*x*r metres in a second.
You would need to know something about the size of the tire (its radius, circumfrence, etc.) Knowing this, you can convert revolutions per minute into some form of distance (using the knowledge that 1 revolution = circumference of the tire). The distance can then be converted to kilometers if it is not already. You would also need to convert minutes into hours (knowing that 60 minutes = 1 hour). This should give your speed in kph (kilometers per hour).
you cant that's 2 different things Depending on the size of the tire... revolutions in a car RPM are talking about the engines crank shaft RPM... now if you want to measure that in Speed... you will need to do the convertion to the size of the tire since MILE is a distance and Revolution is a spin... If you want to measure the size of the crankshaft... well easy... take out the shaft from your car and start rotating it in a street until you reach 10000... that is the distance... as per the time.. do the math 10000 in one minute... there will be a lot of 0 in your result.
Distance is number of revolutions times circumference. So divide the distance by the revolutions to get the circumference. Then divide the circumference by pi to get the diameter, and divide that by 2 to get the radius.
The radius is 28 cm so the circumfecrence is 2*Ï€*28 cm = 56Ï€ cm which is the distance travelled by 1 revolution. So the distance travelled in 300 revolutions = 300*56Ï€ cm = 16800Ï€ cm = 52778.76 cm = 527.8 metres approx
That would depend upon the size of the tire. My car has tires that are about 221/4" in diameter which means they have circumference: circumference = π x diameter ≈69.9" which is the distance travelled in one complete revolution of the tire. 1 mile = 63360 in ⇒ revolutions = 1 mile ÷ circumference_of_tire ≈ 63360 in ÷ 69.9 in ≈ 906.43 revolutions per mile My bicycle has tires that are about 271/2" in diameter meaning the number of revolutions is: revolutions ≈ 63360 in ÷ (π x 271/2 in) ≈ 733.39 revolutions per mile
Since it'll be rolling around the outside of the circle, the distance traveled will be in some multiple of the circumference. So, dividing the distance by the circumference will give the answer. C = πD = 6π revolutions = distance / circumference = 108π / 6π = 18 revolutions
To find the radius of the wheel, we first calculate the circumference of the wheel using the formula: Circumference = 2 * π * radius. Since the wheel travels a distance of 11 km in 5000 revolutions, each revolution covers a distance of 11 km / 5000 = 0.0022 km. The circumference of the wheel is twice the distance covered in one revolution. Thus, we have Circumference = 2 * 0.0022 km = 0.0044 km. By setting up the equation 0.0044 km = 2 * π * radius, we can solve for the radius as 0.0044 km / (2 * π) ≈ 0.0007 km, or 0.7 meters.
Because Pluto has a much greater distance to cover.
to convert revolutions per minute into the measure of degrees traveled, you would need to know for how long those revolutions were going on. revolutions per minute multiplied by the time it was turning gives you the degrees traveled. just like speed * time gives you distance, rotational speed * time gives you rotated distance
How does a planet's distance from the sun affect its period of revolution?
Distance travelled = 240*circumference 240*pi*70 = 52778.75658 or about 52779 cm
A point at a distance of x metres from the centre of an object travels through 2*pi*x metres for each revolution. So if the object is rotating at r revolutions per second, the point in question is travels through 2*pi*x*r metres in a second.
The distance covered in one revolution of this circle is 481 meters.
Every day, the hour hand makes 2 complete revolutions and the minute hand makes 24 revolutions (one per hour). So we have 4 complete revolutions on the hour hand and 48 on the minute hand. First, let us find out the distance per revolution these make. If you noticed on a clock, these would be considered radii, the minute hand makes: C = 2πr ==> C = 2π(4) ==> C = 8π ==> C ≈ 25.133 cm/revolution and the hour hand makes: C = 2πr ==> C = 2π(6) ==> C = 12π ==> C ≈ 37.699 cm/revolution So the sums are: 48(8π cm) + 4(12π cm) = 384π cm + 48π cm = 432π cm ≈ 1,357.168 cm Therefore, the sum of the distances traveled is about 1,357 cm.