A circle with a radius of 15.5 centimeters has a circumference of 97.39 centimeters.
The circumscribing square has sides of length 155 cm. The inscribed square has diagonals of 155 cm and so has sides of 155/sqrt(2) cm. The sides of a circumscribing square is always larger than those of the inscribed square by sqrt(2) = 1.4142 (approx). The area of a circumscribing square is always larger twice as large as that of the inscribed square.
4% of 155 = 4% * 155 = 0.04 * 155 = 6.2
31% of 155 = 31% * 155 = 0.31 * 155 = 48.05
155 as a decimal is 155.0.
155 inches is 3.937 metres.155 inches is 3.937 metres.155 inches is 3.937 metres.155 inches is 3.937 metres.
Atomic radius in group 4:- titanium=140 pm- zirconium=155 pm- hafnium=155 pm
The circumference is about 155609 KM (equitorial).96,685 miles (155,600 km).
It is 9434.6 square units.
There are 100 centimetres in one metre. Therefore, 155 centimetres is equal to 155/100 = 1.55 metres.1.55 meter1 meter = 100 centimeters1 centimeter = 0.01 meter
Atomic radius, empirical: 155 pm Atomic radius, calculated: 206 pm Covalent radius: 175 pm
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The circumscribing square has sides of length 155 cm. The inscribed square has diagonals of 155 cm and so has sides of 155/sqrt(2) cm. The sides of a circumscribing square is always larger than those of the inscribed square by sqrt(2) = 1.4142 (approx). The area of a circumscribing square is always larger twice as large as that of the inscribed square.
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125 x 453.6 g x .155 / 1 cm2 = 8,788.5 grams per square centimeter
Is the question describing a walk along a 48-meter path that happens to be the radius of something ?Or a walk around a circle whose radius is 48 meters ? ?If the walk is 48 meters in 7 seconds, then the average speed is (48/7) = 6.857 meters per second (rounded).If the path is a circle whose radius is 48 meters, then its circumference is (2 pi R) = 301.6 meters (rounded).In order to cover this distance in 7 seconds, the required speed is (301.6/7) = 43.08 meters per second (rounded).Both feats seem implausible.The first one is possible but unlikely. The 'walker' needs to walk at about 24.6 km (15.3 miles) per hour ...faster than a "four-minute mile", but well within the world record for 100 meters (14.59 sec vs. 9.69 sec),and less than 1/2 the speed of the Olympic record for the 3,500-meter walk (15.6 m/s).The second is not possible ... he needs to move along the track at about 155 km (96 miles) per hour.
87% of 155 = 87% * 155 = 0.87 * 155 = 134.85
6% of 155= 6% * 155= 0.06 * 155= 9.3