72
(a to the power of 1)/(a to the power of 1)=1 So, a to the power of (1-1)=1 Therefore, a to the power of 0=1
Points: (1, -2) and (1, -5) Distance: 3 units by using the distance formula
1 to the power of anything is 1.
Use Pythagoras to find the distance between two points (x0,.y0) and (x1, y1): distance = √(change_in_x² + change_in_y²) → distance = √((x1 - x0)² + (y1 - y0)²) → distance = √((4 - 1)² + (-1 -2)²) → distance = √(3² + (-2)²) → distance = √(9 + 9) → distance = √18 = 3 √2
The power required to exert a force of 1 N over a distance of 1 m in 1 second is 1 watt. This is because power is defined as the rate at which work is done, and in this case, the work done is 1 joule in 1 second.
one jule
one jule
You would expend 2 watts of power when you exert a force of 1N that moves a book 2m in a time interval of 1s.
You would expend 2 watts of power when exerting a force of 1 N to move a book 2 meters in one second. This can be calculated using the formula for power, which is Power = Work / Time. Given that Work = Force x Distance, the power expended would be 1 N * 2 m / 1 s = 2 watts.
1 MW (megawatt) is a unit used to measure power, not distance. It represents one million watts of power.
The amount of work done is 1 joule. Work is calculated by multiplying the force applied (1 newton) by the distance moved (1 meter). So, 1 newton x 1 meter = 1 joule.
It'll only deliver 1/4 of the power.
An Amp Hour is the maximum quantity of power a power source might deliver for an hour. As an example, a 500 Amp Hour (Ah) battery might deliver enough power to turn the starter of a car for a few minutes, but would power a 500 Mili Amp (Ma) light bulb for 1000 hours (in a perfect world).
Provided the load has a power factor of 1 power is transferred when the live is both positive and negative. The power pulsates at double the supply frequency in a single-phase system
Pushing against a 1 Newton force over a 1-metre distance.
No, 1 amp is 1000 milliamp your power supply will only deliver 600 milliamp or .6 of an amp.