Yes. Many factors affect penetration. Broadhead weight- Shaft weight- trueness of flight-width or cutting diameter and shape of broadhead- arrow speed -distance-as well as pull weight.
Yes
ofcourse you need to be the right weight to have different kinds of hairstyles No, your weight doesnt affect the way your hair looks. Don't listen to the person above, your hair will not look any different no matter what your weight is.
The force of gravity is a mutual attraction; the Earth pulls on you, and you pull on the Earth. Of course, the effect on you is more noticeable, given the difference in weight.
Mass is the amount of matter or molecules that a specific object is composed of. Weight is the measure of gravity's pull on you. Does this help answer your question?
To add weight to your pull ups using a belt, you can attach a weight plate or dumbbell to the belt and secure it around your waist. This will increase the resistance and make your pull ups more challenging, helping to build strength and muscle. Make sure the weight is securely attached and evenly distributed for safety and effectiveness.
yes, force (or weight) = mass * acceleration due to gravity
The difference between a person's weight on the earth and on the moon has to due with the difference between mass and weight. Mass is a measure of the amount of matter and weight is the pull of gravity on that mass. Gravity on the moon is about 83% that on earth, so if you weigh 100 lbs on earth, you will weigh approximately 17 lbs on the moon.
Trains can pull heavy loads because they have powerful engines that generate a lot of force. This force is transmitted to the wheels, allowing the train to move and pull heavy cars behind it. Additionally, trains distribute the weight of the load across multiple wheels, which helps to distribute the weight and make it easier to pull.
Weight is the force of gravity acting on an object, measured in newtons. Mass is the amount of matter in an object, measured in kilograms. Weight can vary depending on the gravitational pull, while mass remains constant.
the difference between the gravitational pull on th eearth and moon is 1/6th. The gravitational pull on the earth is 6 times more than the garvitational pull of the moon. If some one weighs 36 kgs on earth then the weight on moon will be 6 kgs.
I don't see how magnetism would make any significant difference.
Weight = mass x gravitational field strength. W=mg On Earth, g=9.8N/kg On Mercury, g=3.8N/kg Thefore the difference in weight will be the objects mass x (9.8-3.8) = 6 x the objects mass. Weight difference = 6m