An example of cartilage that you can easily touch and feel is the cartilage in your ears, known as auricular cartilage. This flexible cartilage gives shape to the outer ear and can be easily manipulated by touching it. Another example is the cartilage at the tip of your nose, which also provides structure and can be felt when you touch your nose.
The earlobe is an example of cartilage in the body that is easily touchable and feelable. It is flexible and provides structure to the ear.
The tip of you nose or your ears.
Two easily palpable cartilages are the soft tip of your nose and the external ears.
When you accidentally touch the stove and feel the heat, that is an example of conduction.
The trachea is a firm and flexible tube made of cartilage rings, so it feels rigid yet pliable when touched. Upon palpation, you may feel the rings of cartilage through the skin. It should not be tender or painful to touch under normal circumstances.
we can feel and touch the product as it is materialistic for example toothpaste coming to service it is not materialistic and we can only feel it example airtel
An example of conduction is when you touch a hot stove and feel the heat transferring from the stove to your hand.
When you touch a hot pan on the stove and feel the heat transferring from the pan to your hand, that is an example of conduction.
The Needle. Using The Gun To Pierce Like For Example Your Cartilage In Your Ear, The Cartilage Might Shatter And Youll Feel Tiny Bumps Around Your New Piercing, Thatll Mean You Have Shattered Your Cartilage. So In My Opinion For Choosing What To Pierce With I Would Have To Say A Hollow Piercing Needle :)
Yes, the heat you feel when you touch a hot stove is an example of conduction. Conduction is the transfer of heat through direct contact between objects at different temperatures.
It sounds like a benign (not harmful) cyst. Cysts are small balloons of fluid that feel hard to the touch. If the lump on your rib rapidly gets larger, becomes discolored or painful, talk to your doctor.
touch the surface of the brain how does it feel