It really depends on your body proportions, but anywhere around 140 is healthy.
The body surface area of an adult who weighs 145 kg and whose height is 183 cm is 2.73 m^2. This BSA on a person is considered to be obese and the ideal weight for an adult of this height is 80 kg.
Probably Goliath, champion of the Philistine Army, whose height is recorded at 9'9".
Judge Judy, whose real name is Judith Sheindlin, is approximately 5 feet 1 inch (155 cm) tall and weighs around 100 pounds (45 kg). Despite her small stature, she is known for her commanding presence and assertive demeanor in the courtroom.
Someone whose favorite color is undeniably purple...
The shortest living person is Junrey Balawing of the Philippines, whose height is 60 cm.. There were two people recorded as being shorter but they are no longer living and so Junrey is the shortest.
In general, the range is between 100 lbs - 120 lbs.
The body surface area of an adult who weighs 145 kg and whose height is 183 cm is 2.73 m^2. This BSA on a person is considered to be obese and the ideal weight for an adult of this height is 80 kg.
80 kg
The average weight of a 14-year-old varies depending on factors like height, gender, and body composition. However, for a rough estimate, the average weight for a 14-year-old is around 105-125 pounds. But hey, who cares about averages? As long as you're healthy and happy, that number on the scale is just a bunch of mumbo jumbo.
---- If you are 5'4'', your BMI can be somewhere in the 40th-70th percentile and be healthy
To calculate the weight of a person on the Moon, we need to divide their weight on Earth by 6. This means that a person weighing 183 lb on Earth would weigh approximately 30.5 lb on the Moon. This calculation is based on the Moon's gravity being about 1/6th that of Earth's.
6/1.5 = 4 mIt height
I am 28 years old and 5'3 and I am 120
175cm *1m/100cm =1.75m
The person whose clothing is on fire should "stop, drop, and roll" or be assisted in lying flat on the ground and rolling to put out the fire.
When an object is lifted to a certain height, the mechanical energy of the person or system lifting the object gets transferred into the potential energy of the object. Thus if an object of mass/weight 'm' is lifted to a height 'h', then the potential energy possed by the object at height 'h' is given as: Potential Energy (P.E)= m*g*h, where g is acceleration due to gravity and whose value is 9.8 m/s2.
The person who is steadily losing weight.