Evaluating Kinetic Energy for m 848 lb and v = 1010 mph
Created By : Sunil Kumar Gandipadala
Reviewed By : Rajashekhar Valipishetty
Last Updated : Apr 10, 2023
Kinetic Energy for m = 848 lb, v = 1010 mph i.e. 39205076.176 J using the Kinetic Energy Calculator in a fraction of seconds.
Ex: 10, 167, 48, 34.5 or 90
Detailed Solution finding Kinetic Energy for m = 848 lb, v = 1010 mph
Kinetic Energy is the energy an object has owing to its motion. In classical mechanics, kinetic energy (KE) is equal to half of an object's mass (1/2*m) multiplied by the velocity squared.
The formula to calculate Kinetic energy is:
Where,
KE = Kinetic Energy
m = Mass of object
v = velocity
Step by Step Solution to find Kinetic Energy of Mass = 848 lb & Velocity = 1010 mph:
Given that,
mass (m) = 848 lb
velocity (v) = 1010 mph
⇒ Convert the mass 848 lb to "Kilograms (kg)"
Mass in Kg = 848 ÷ 2.204623
Mass in kg = 384.6463 kg
=> Convert Distance value 1010 mph to "meters (m)"
Distance in meters = 1010 x 1609
Distance in meters (m) = 451.4975 m
Substitute the value into the formula
KE = 39205076.176 J
∴ Kinetic Energy (KE) = 39205076.176 J
KE for m = 848 lb, v = 1010 mph Results in different Units
| Values | Units |
|---|---|
| 39205076.175985 | joules (J) |
| 39205.076176 | kilojoules (kJ) |
| 39.205076 | megajoules (mJ) |
| 10890.30765 | watt hours (Wh) |
| 10.890308 | kilowatt hours (kWh) |
| 9370.236675 | kilocalories (kcal) |
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