Recall E = m c^2
m = 0.15 kg = 0.15 kg
c = 3 * 10^8 m/s
So c^2 = 9 * 10^16
Hence E = 0.15 * 9 * 10^16 = 1.35 * 10^16 J
4.87
735 newtons.
9.81 newtons
735°F is equivalent to 390.6°C
Work = Force x Distance. F = ma => F = 75(9.8) = 735N Work = 735(9.5) = 6982.5J
Potential Energy is given by the fourmulai PE=MGH where M=mass in kilos, G=the force of gravity in Netwons (9.8N) and H=height in meters. So 50*9.8*10=4900joules. A Watt is a unit of power that =1 joule per second. So 4900 joules divided by 5 seconds = 980 Watts, not allowing for losses due to friction etc.
The mass of 0,005 moles of paradichlorobenzene is ,735 g.
What is the Kinetic Energy of the trolley at the top of the ramp if a trolley of mass is 25Kg and is released from the top of a ramp which stands at a height of 3m? Mass = 25 Kg Height = 3 m This is an energy problem. At the top of the ramp, the trolley is at rest and 3m above the base line. Potential Energy = Weight * height Weight = mass * acceleration due to gravity Acceleration due to gravity = 9.8m/s^2 Potential Energy = 25 kg * 9.8m/s^2 * 3 m Potential Energy = 735 Joules When the trolley reaches the bottom of the ramp, all the potential energy has been converted to Kinetic energy. Potential Energy = 735 Joules = Kinetic energy Kinetic energy = ½ * mass * velocity^2 Kinetic energy = ½ * 25 * V^2 = 735 multiply 735 by 2 and divide by 25 V^2 = 58.8 V = 7.67 m/s
735 newtons.
(6 x 6) + 5 678 194 834 - (76 735 x 793) = 5 617 344 015
The highest point is Mount Cheaha, at a height of 2,413 ft (735 m).
The atomic mass of the most stable and common isotope of francium, 223Fr, is 223,019 735 9(26).
The highest point is Mount_Cheaha, at a height of 2,413 ft (735 m).
735
80% of 735 = 588= 80% * 735= 80%/100% * 735=5880/10= 588
735! = 2.2234781778053995436468186565572e+1789
9.81 newtons
735 rounded to the nearest ten is 740