3 ounces
On average, one human hair can support the weight of a small insect. However, this can vary depending on the thickness and condition of the hair.
The human body can typically withstand up to 100 milliamperes of electricity before experiencing harm or injury.
On average, human hair has a density of about 1.06 grams per cubic centimeter. To calculate how much human hair would equal one pound, you would need approximately 453.6 grams of human hair, which is roughly equivalent to 16 ounces or one pound. The amount of human hair needed can vary depending on the thickness and length of the hair.
A tip of a human hair is typically larger than a transistor. Transistors, being microscopic devices used in electronic circuits, are much smaller in size compared to the diameter of a human hair.
A nanometer is about 1,000 times smaller than the diameter of a human hair. A human hair is typically around 80,000-100,000 nanometers in diameter, while a nanometer is one-billionth of a meter.
On average, one human hair can support the weight of a small insect. However, this can vary depending on the thickness and condition of the hair.
250 Microgram approx
No, a strand of steel is much stronger than a strand of human hair of the same size. Steel has a higher tensile strength and can withstand much greater forces before breaking compared to human hair.
9billion tons
The human body can typically withstand up to 100 milliamperes of electricity before experiencing harm or injury.
Your hair grows .75 inches in a month
Americans weigh on average 155 lbs, and the number is climbing!
On average, human hair has a density of about 1.06 grams per cubic centimeter. To calculate how much human hair would equal one pound, you would need approximately 453.6 grams of human hair, which is roughly equivalent to 16 ounces or one pound. The amount of human hair needed can vary depending on the thickness and length of the hair.
All of it
A human hair is bigger than a lymphocyte human hair- 200 micrometers, lymphocyte 20 micrometers
The knee joint can typically withstand forces of up to 4-6 times a person's body weight during activities like walking or stair climbing. However, excessive or repetitive stress on the knee joint can lead to injuries such as ligament tears or cartilage damage. It's important to strengthen the muscles around the knee and practice proper form during physical activities to help protect the joint.
The human body can withstand temperatures up to 104 degrees Fahrenheit before experiencing adverse effects, such as heat exhaustion or heat stroke.