10 inches from table underside to top of chair seat
A chair with a seat height of about 18 inches is recommended for a 30-inch table.
A standard dining chair with a seat height of around 18 inches would be the most suitable for a 30-inch table.
Approximately 10 to 12 inches. But it does depend on the size of the people using it and whether it is for meals or drinks or work, etc.
The thickness of a chair seat can vary depending on the design and materials used. On average, chair seats are typically between 0.5-1 inch thick.
Between 40 and 50 centimeters.
Seat is more formal also you can say in a formal setting "please be seated" but not "have a chair" when you want someone to sit.
To measure chair height accurately, use a tape measure to determine the distance from the floor to the highest point of the seat. This measurement will give you the chair's height.
A chairs seat is generally 11" shorter than the height of the tabletop. In your case you would need a 25" chair. luckily for you this is the 36" is the architectural standard for counter tops so all companies make a "counter height" stool with a seat height of 25". Bar Height: 42" Bar Stool: 31" seat h. Counter Height: 36" Counter Stool: 25" seat h. Table: 28-29" Dining Chair 17-18"h.
A booster seat is like a high chair, except that it generally clips on to the table or to an existing chair instead of being a separate piece of furniture. It is designed to raise your child up and keep them secure while they eat or play. A small baby should have a high chair instead, but when the baby can sit up on its own or outgrows its high chair, it should have a booster seat.
The ideal seat to table height for comfortable dining is typically around 18 inches for a standard dining chair. This allows for proper alignment of the body and arms while eating.
There really is no important seat at a round table, besides the way a seat at a round table is if the chair was big and important. Hope that answers your question, I didn't understand it completely but I thought I would try! :)
The following analysis holds while I am sitting in/on the chair: Gravitational force -- downward Resistance force of the chair -- upward Sum of the forces on the seat of my pants -- Zero Therefore neither I nor the seat of my pants is accelerated.