3. Doing Bicycles not only help to melt belly fat it also works on the muscles of your upper body. For this you have to lie on your back and raise your legs at 90 degree, then bend your legs to 90 degree and hold it. Keep your hands under your head and slowly raise your head and shoulder off the ground. Now with a fast movement bring your right elbow to your left knee and extend your right leg in the front. You have to switch sides fast to create the cycling effect. Use your core muscles to keep your head and shoulder above the ground throughout the exercise. Do 20 repetitions and add 10 as you become stronger.
I started at 245lbs, I began my journey in 2015 I am currently 170lbs at 5'10. I never ever thought I would be addicted to working out, I love it! I started simply by doing morning and evening walks for a year then I wanted more so I did a lot of research and came across so many trainers but Jillian caught my attention. I've never felt better in my life. I'm a mom of three beautiful boys who by the way do JM with my youngest being only 5 years old! Thank you Jillian! You have helped me so much!
But just because belly fat comes off a bit more easily doesn’t make it less dangerous. In fact, it’s the exact opposite. “Belly fat is unfortunately the most dangerous location to store fat,” says Dr. Cheskin. Because belly fat—also known as visceral fat, or the deep abdominal fat that surrounds your organs—is more temporary, it’s more active in terms of circulating in the bloodstream. That means it’s likely to raise the amount of fat in your blood (known as blood lipid levels) and increase your blood sugar levels, which as a result raises your risk of heart disease and type 2 diabetes.
It’s impossible to target belly fat specifically when you diet. But losing weight overall will help shrink your waistline; more importantly, it will help reduce the dangerous layer of visceral fat, a type of fat within the abdominal cavity that you can’t see but that heightens health risks, says Kerry Stewart, Ed.D. , director of Clinical and Research Physiology at Johns Hopkins.